Order Pre/1615/2015, 23 July, Which Are Updated Eleven Professional Qualifications Of The Professional Family Power And Water, Collected In The National Catalogue Of Professional Qualifications, Established By Royal Decree 1228 / 2006, D...

Original Language Title: Orden PRE/1615/2015, de 23 de julio, por la que se actualizan once cualificaciones profesionales de la familia profesional Energía y Agua, recogidas en el Catálogo Nacional de Cualificaciones Profesionales, establecidas por Real Decreto 1228/2006, d...

Read the untranslated law here: http://www.boe.es/buscar/doc.php?id=BOE-A-2015-8714

Law organic 5/2002, of 19 June, qualifications and vocational training, aims at the management of an integrated system of vocational training, qualifications and accreditation, to respond with efficiency and transparency to the social and economic demands through training practices. To do so, creates the national system of qualifications and vocational training, defining it in article 2.1 as a set of instruments and actions necessary to promote and develop the integration of offers of training, through the national catalogue of professional qualifications, as well as the evaluation and accreditation of the corresponding professional skills, in such a way that it promotes professional and social development of the people and the needs of the production system are covered.

The national catalogue of professional qualifications, according to article 7.1, is created with the purpose of facilitating the integrated nature and the adequacy between vocational training and the labour market, as well as lifelong training, the mobility of workers and the labour market unit. This catalogue is constituted by the qualifications identified in the productive system and the training associated with them, which is organised in training modules.

Article 5.3 of the organic law 5/2002, of 19 June, attributed to the National Institute of qualifications, the responsibility to define, develop and keep updated the national catalogue of professional qualifications, in his capacity as technical support body to the Council General of vocational training, whose regulatory development contained in article 9(2) of the Royal Decree 1128 / 2003 , 5 September, which regulates the national catalogue of professional qualifications, establishing in its article 9.4, the obligation to keep it permanently updated through periodic review which, in any case, must be made within a period not exceeding five years from the date of inclusion of the qualification in the catalog.

This order is issued pursuant to the Royal Decree 817/2014, of 26 September, which lays down the specific aspects of professional qualifications for as amended, procedure of approval and effects is therefore implementation article 7.3 of the organic law 5/2002, of 19 June, qualifications and vocational training who in their processing obtained opinion of the Council of State number 618/2014, July 23, 2014.

Thus, in the present order updated, substitution complete its annexes, eleven professional qualifications of family professional power and water with an antique in the national catalogue of professional qualifications more than five years, which is implementing Royal Decree 817/2014, of 26 September. In addition, modify partially certain professional skills, through the replacement of transversal competence units and training modules associated, included in up-to-date professional qualifications listed in the annexes of this order.

In the process of elaboration of this order the autonomous communities have been consulted and they have issued report the General Council for vocational training and the State School Board.

In his virtue, a joint proposal from the Minister of education, culture and sport and Minister of employment and Social Security, have: article 1. Object and scope of application.

This ministerial order aims to update eleven professional qualifications corresponding to the family professional power and water, leading to the replacement of the relevant annexes, and modify partially certain professional qualifications through the substitution of certain units of competence and training modules associated, in application of the Royal Decree 817/2014, of 26 September, which establishes the specific aspects of professional whose modification qualifications procedure of approval and effects of application article 7.3 of the organic law 5/2002, of 19 June, qualifications and vocational training.

Up-to-date professional qualifications and the partially modified by this procedure are valid and are applicable throughout the national territory, and do not constitute a regulation of professional practice.

Article 2. Update of certain qualifications professionals family professional power and water, established by Royal Decree 1228 / 2006 of 27 October, which complemented the national catalogue of professional qualifications, through the establishment of certain professional qualifications, as well as its relevant training modules which are incorporated into the Modular catalogue of vocational training.

Pursuant to the sole additional provision of the Royal Decree 1228 / 2006, on 27 October, proceeds to the updating of professional qualifications whose specifications are contained in annexes CXC, CXCI, CXCII and the Royal Decree CXCIII: one. A new wording is given at Annex CXC, professional qualification «Installation and maintenance of solar heating». Level 2. ENA190_2, which appears as annex I of this order.

Two. A new wording is given at Annex CXCI, 'Installation and maintenance of water networks' professional qualification. Level 2. ENA191_2, which appears as annex II to this order.

3. A new wording is given at Annex CXCII, 'Installation and maintenance of gas networks' professional qualification. Level 2. ENA192_2, which appears as annex III to the present order.

Four. A new wording is given at Annex CXCIII, 'Management of the installation and maintenance of wind farms' professional qualification. Level 3. ENA193_3, which appears as annex IV of this order.

Article 3. Update of certain professional qualifications established by Royal Decree 1114 / 2007 of 24 August, whereby the national catalogue of professional qualifications, is complemented by the establishment of four professional qualifications corresponding to the family professional power and water.

Pursuant to the sole additional provision of Royal Decree 1114 / 2007 August 24, proceeds to the updating of professional qualifications whose specifications are contained in annexes CCLXI, CCLXII, CCLXIII and CCLXIV of the aforementioned Royal Decree: one. A new wording is given at Annex CCLXI, professional qualification «Installation and maintenance of solar photovoltaic systems». Level 2. ENA261_2, which appears as annex V of the present order.

Two. A new wording is given at Annex CCLXII, professional qualification «Organization and control of the Assembly and maintenance of water and sanitation facilities and networks». Level 2. ENA262_3, which appears as annex VI to the present order.

3. A new wording is given at Annex CCLXIII, professional qualification, "Organization and solar photovoltaic projects". Level 3. ENA263_3, which appears as annex VII of this order.

Four. A new wording is given to annex CCLXIV, professional qualification, "Organization and solar heating projects". Level 3. ENA264_3, which appears as annex VIII of this order.

Article 4. Update of certain professional qualifications established by Royal Decree 1698 / 2007, of December 14, whereby the national catalogue of professional qualifications, is complemented by the establishment of three professional qualifications corresponding to the family professional power and water.

Pursuant to the sole additional provision of the Royal Decree 1698 / 2007, of December 14, proceed to the update of professional qualifications whose specifications are contained in annexes CCCLVIII, CCCLIX and the Royal Decree CCCLX: one. A new wording is given to annex CCCLVIII, professional qualification «Energy efficiency of buildings». Level 3. ENA358_3, which appears as annex IX of this order.

Two. A new wording is given to annex CCCLIX, professional qualification management operation at thermoelectric power plants». Level 3. ENA359_3, which appears as annex X of this order.

3. A new wording is given at Annex CCCLX, qualification «Management of the installation and maintenance of gas networks». Level 3. ENA360_3, which appears as annex XI of this order.

Article 5. Partial modification of professional qualifications established by Royal Decree 716/2010 of 28 may, whereby the national catalogue of professional qualifications, is complemented by the establishment of three professional qualifications corresponding to the family professional power and water.

Pursuant to the sole additional provision of Royal Decree 716/2010 of 28 may, proceed to the partial modification of the professional qualification whose specifications are contained in the annex of the aforementioned Royal Decree CDLXXIII:
Professional qualifications amending established as «annex CDLXXIII: management of hydropower operation.» Level 3. ENA473_3» respectively, replacing the unit's competition «UC1200_3: coordinating and preparing the human team involved in the area of operation of the power stations» and associated training module «MF1200_3: coordination and support to teams involved in the operation of power stations» competition unit «UC1200_3: coordinating and preparing the human team involved in the area of operation of the power stations» and the associated training module «MF1200_3 «: Coordination and support to teams involved in the operation of power stations "corresponding to the «annex X: management operation in hydroelectric power stations. Level 3. ENA359_3» of this order.

Article 6. Partial modification of a qualified family professional power and water established, established by Royal Decree 1788 / 2011, of December 16, which complemented the national catalogue of professional qualifications, through the establishment of certain professional qualifications corresponding to chemical professionals families, energy and water, transportation and vehicle maintenance, graphic arts, physical activities and sports , and arts and crafts.

Pursuant to the sole additional provision of the Royal Decree 1788 / 2011, of December 16, proceeds to update the professional qualification whose specifications are contained in annex DCLVI of the aforementioned Royal Decree: professional qualifications amending established as «annex DCLVI: management of the efficient use of water.» Level 3. ENA656_3» respectively, replacing the unit's competition «UC1196_3: manage the efficient use of water in building» and associated training module «MF1196_3: efficiency in the use of water in buildings» for the unity of competition «UC1196_3: manage the efficient use of water in building» and associated training module «MF1196_3: efficiency in the use of water in buildings» corresponding to the «annex IX: energy efficiency of buildings. " Level 3. ENA358_3» of this order.

First final provision. Skill-related title.

This order is issued by virtue of the powers which attributes to the State the article 149.1.1. 2nd and 30th of the Constitution, on regulation of the basic conditions that guarantee the equality of all Spaniards in the exercise of rights and in the fulfilment of the constitutional duties, and for the regulation of the conditions of procurement, issuance and recognition of academic and professional qualifications.

Second final provision. Entry into force.

This ministerial order shall enter into force the day following its publication in the "Official Gazette".

Madrid, 23 July 2015.-the Vice-President of the Government and Minister of the Presidency, Soraya Sáenz de Santamaría Antón.

Annex I professional qualification: installation and maintenance of solar heating professional family: energy and water level: 2 code: ENA190_2 general competition mounting, commissioning, operation and maintenance of solar heating of low temperature, with required quality and safety and in compliance with the applicable rules.



Competition UC0601_2 units: rethink solar heating UC0602_2: mounted sensors, equipment and solar heating systems UC0603_2 hydraulic circuits: install circuits and electrical equipment of solar heating UC0604_2: commissioning and operating solar heating UC0605_2: maintain solar heating environment professional scope professional develops his professional activity in the area of production dedicated to assembling the operation and maintenance of solar thermal systems, entities of public or private nature-sized businesses small, medium or large, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the sector of construction and energy, in productive activities are performed Assembly, exploitation and maintenance of solar domestic hot water thermal or for supporting heating systems and other applications.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Editors of solar heating maintainers of solar heating systems operators of solar thermal training associate (540 hours) training modules MF0601_2: layout of solar heating systems (90 hours) MF0602_2: mechanical and hydraulic mounting of solar heating (180 hours) MF0603_2: electrical installation of solar heating systems (90 hours) MF0604_2: commissioning and operation of solar heating (60 hours) MF0605_2 : Maintenance of solar thermal facilities (120 hours) unit of competition 1: RETHINK installations solar thermal level: 2 code: UC0601_2 realizations professionals and completion criteria: RP 1: rethink the sensors and hydraulic circuits in solar heating systems from a project or technical report for Assembly.

CR 1.1 installation type is identified from the plans and technical specifications corresponding to distinguishing its energy and functional characteristics.

CR 1.2 components of Assembly or installation, as well as its functional features and specifications, are identified from drawings and technical specifications corresponding, locating its location.

CR 1.3 possible dysfunction between the design of the installation and the own location is determined, by adopting the technical and organizational decisions that apply.

1.4 CR locations and characteristics of anchorage, supports and connections of the different components and construction elements are determined previously to be assembled.

CR 1.5 necessary complementary schemes for hydraulic and mechanical installation mounting are carried out in cases where it is necessary.

CR 1.6 the location of sensors, hydraulic equipment, pipes and accessories is marked on the ground from the project of installation, taking into account the characteristics of the place.

CR 1.7 work area affected is indicated according to regulatory requirements.

2 RP: Rethinking electrical installations of solar thermal systems from a project or technical report for Assembly.

CR 2.1 electrical installation is identified from the plans and technical specifications corresponding to distinguishing its energy and functional characteristics.

CR 2.2 electrical components of Assembly or installation as well as its functional features and specifications are identified from drawings and technical specifications corresponding, locating its location.

CR 2.3 possible dysfunction between the project of the electrical installation and the own location is determined, by adopting the technical and organizational decisions that apply.

CR 2.4 locations and characteristics of anchorage, supports and connections of the different electric components are determined previously to be assembled.

CR 2.5 complementary schemes for electrical installation mounting are carried out in those cases in which it is indicated.

CR 2.6 location of thermostats, switches, probes, sensors, resistors, motors, pumps, circulators, pipes, conductors, solenoid valves, measuring equipment, control equipment and other electrical components is marked on the ground from the project of installation, taking into account the characteristics of the place.

CR 2.7 affected work area is indicated according to regulatory requirements.

3 RP: Rethinking the integration of solar heating in the reform of existing heating systems, from a project or technical report, to perform your installation.

CR 3.1 the type of heating system that you want to reform is identified from the plans and technical specifications corresponding, distinguishing their energy and functional characteristics.

CR 3.2 components of the existing installation as well as its functional features and specifications are identified from drawings and technical specifications corresponding, locating its location.

CR 3.3 performance of tampering or modification that you want to perform and the sequence of intervention are set from the interpretation of drawings and technical specifications of projects or technical brochures for integration of solar thermal systems in existing installations, optimizing the process in terms of safety, method and time.
CR 3.4 complementary schemes required for the layout and Assembly of the reform of the heating systems are carried out in those cases in which it is indicated.

CR 3.5 location, layout and marking of components and accessories that have to modify or add to existing thermal plants is carried out on the ground, from the design of the installation and taking into account the characteristics of the place.

CR 3.6 work area affected by reform is indicated according to regulatory requirements.



Professional context: means of production: drawing tools. Specific computer applications. Compass, clinometer, G.P.S. marking tools. Signalling material. Security equipments.



Products and results: re-designed thermal solar installations. Changes in solar heating re-designed.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Schemes for the layout and Assembly. Internal rules of work. Applicable regulations.



Unit 2 competition: Mounted sensors, equipment and CIRCUITS hydraulic installations solar thermal level: 2 code: UC0602_2 realizations professionals and completion criteria: RP 1: organize the Assembly work, according to project and programme of installation for the installation of sensors, equipment and hydraulic circuits in solar heating systems.

CR 1.1 the Assembly sequence is established from drawings and technical documentation, optimizing the process with respect to safety, method and time.

1.2 CR materials, tools, and other technical resources are selected depending on the type of solar thermal.

CR 1.3 receipt of components is done inspecting and evaluating the State of them, determining their adequacy to the technical requirements and transmitting non-conformities.

CR 1.4 work area is prepared in accordance with the requirements of the work itself and according to established procedures.

CR 1.5 coordination with those involved in the work is performed according to level of responsibility, according to criteria of efficacy and safety.

2 RP: Apply preventive, corrective and emergency measures in the plan of enterprise security, during the Assembly of sensors, equipment and hydraulic circuits of solar heating to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for the security in the Assembly plan.

CR 2.2 environmental protection requirements are identified in the documentation, considering them to be applied in the execution of the installation.

CR 2.3 means of protection referred to the risks arising from the Assembly are selected and used, preventing accidents.

CR 2.4 areas of work under the responsibility of the operator are in order and clean, avoiding accidents.

CR 2.5 emergency situations are addressed, following the Protocol, adapting it according to the case.

3 RP: Mounted solar thermal collectors, from plans and specifications, compliance with the applicable rules and established procedures.

3.1 CR materials and equipment move and placed, with the means of transport and lifting that prevent the deterioration thereof.

3.2 CR brackets and anchor points of the collectors, pipes and fittings are placed according to the specifications of the project, allowing the planned expansion of network.

CR 3.3 solar panels are placed with the orientation, distance, adequate and interconnected inclination according to the technical specifications.

4 RP: Mount the hydraulic circuits of thermal solar installations, drawings and technical specifications, fulfilling established procedures and applicable regulations.

CR 4.1 tubes laying is performed with slopes, shapes and devices established, ensuring the circulation of the fluid heat.

CR 4.2 types and characteristics of equipment and assembled elements are checked, ensuring its resistance to pressure and working temperature and response to the function they have to perform.

4.3 CR pipes and elements are connected, by flame, electric welding, electrofusion, threaded, welding or other techniques of Assembly and union depending on the type of material used, using tooling and tools necessary to achieve the required tightness.

CR 4.4 assembled elements and piping connections are isolated from vibrations and are protected from stress or mechanical stress, allowing the planned expansion.

CR 4.5 traps, valves, pumps, circulators, deposits of accumulation, expansion tanks, heat exchangers, elements of regulation, safety valves and accessories are installed, allowing access for its handling and maintenance in safe conditions.

CR 4.6 flowmeters, pressure switches, probes of level and other detectors of the variables of the system, are mounted according to the technical specifications to allow the indication of the measured magnitude without disturbance.

CR 4.7 hydraulic connection with conventional support and auxiliary facilities is made according to project and applicable regulations.

CR 4.8 protections against corrosion and thermal insulation of the hydraulic components are carried out according to established technical requirements.



Professional context: means of production: tools and measuring tools: thermometers, pressure gauges, flow meters, counters, measuring tape, level, useful marking. Hand tools: wrenches, pipe cutter, saw files, drill, riveting machine, bending machine, threading, welding equipment and useful of lifting, among others. Security equipments. Useful for the application of fixation and waterproofing resins. The plant components: sensors, heat exchangers, expansion tanks, storage tanks, pumps, circulators, pipes, valves, traps.



Products and results: sensors, equipment and hydraulic circuits of thermal solar installations installed and connected. Hydraulic connection of the system with other systems of support.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Internal rules of work. Applicable regulations.



Unit 3 competition: Assemble CIRCUITS and equipment electrical installations solar thermal level: 2 code: UC0603_2 realizations professionals and completion criteria: RP 1: organize the Assembly work, according to the project and program of mounting, installation of circuits and electrical equipment in solar heating systems.

CR 1.1 the Assembly sequence is established from drawings and technical documentation, optimizing the process with respect to safety, method and time.

1.2 CR materials, tools, and other technical resources are selected depending on the type of installation.

CR 1.3 receipt of components is done, inspecting and evaluating the State of them, determining their adequacy to the technical requirements and transmitting non-conformities.

CR 1.4 work area is prepared in accordance with the requirements of the work itself and according to established procedures.

CR 1.5 coordination with those involved in the work is performed according to criteria of efficacy and safety.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the Assembly of circuits and electrical equipment of solar heating systems, to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan in the Assembly of circuits and electrical equipment.

CR 2.2 means of protection against risks arising from the installation and commissioning of the installation, are selected and used for preventing accidents.

CR 2.3 work of their responsibility areas are kept in order and clean, avoiding accidents.

CR 2.4 emergencies are met following the Protocol, adapting it according to the case.

3 RP: Fit electrical circuits and equipment of regulation and control of solar heating systems, based on plans and specifications, fulfilling established procedures and applicable regulations.

CR 3.1 pipelines, electrical conductors and detectors elements of the installation are mounted, using the means and procedures.

CR 3.2 pictures of control and automation of the installation are built and installed, complying with the applicable rules.

CR 3.3 electrical connections between elements and the auxiliary heating systems or support is carried out according to project and applicable regulations.
CR 3.4 control elements are programmed according to the relevant technical documentation and operating conditions.



Professional context: means of production: tools and measuring tools: thermometers, pressure gauges, flowmeters, meters, measuring tape, useful tagging, digital meter, ammeter, buscapolo, insulation tester. Hand tools: saw, wrenches, soldering, threading, limes, drill, among others. Security equipments. The plant components: thermostats, switches, probes, sensors, resistors, motors, pumps, circulators, pipes, conductors, solenoid valves, measuring equipment, control equipment.



Products and results: electrical circuits and equipment of regulation and control of solar heating systems with support systems installed and connected.



Used or generated information: projects. Cutting and assembly drawings. One-line diagrams. Diagrams of electrical connection. List of parts and components. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Internal rules of work. Applicable regulations.



Unit 4 competition: Putting in service and operate installations solar thermal level: 2 code: UC0604_2 realizations professionals and completion criteria: RP 1: prepare the implementation of thermal solar installations, drawings and technical specifications, complying with the applicable rules and established procedures.

CR 1.1 the interconnection between the solar system and the auxiliary heating systems or support hydraulic is monitored according to the project and the applicable regulations.

CR 1.2 the tightness and pressure in the hydraulic circuits testing, for each circuit installation, fulfilling regulatory and safety conditions.

CR 1.3 cleaning and disinfection of the hydraulic circuit is carried out according to applicable regulations.

CR 1.4 definitive filling of the circuit is done with the corresponding fluid, according to technical specifications and applicable regulations.

CR 1.5 connections of electrical circuits and regulation elements are checked according to requirements and project specifications.

CR 1.6 the thermal insulation of the hydraulic components is verified, checking that it complies with the rules and that it ensures the protection from atmospheric agents.

CR 1.7 documentation the results of the tests required by regulation is carried out according to established procedures.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the commissioning of solar heating systems, to prevent accidents and minimize risks.

CR 2.1 occupational risks derived from tests of pressure and put in service, are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.2 means of protection against risks arising from the pressure and commissioning tests, are selected and used to preventing accidents and minimize the risk.

CR 2.3 areas of work under the responsibility of the operator are in order and clean, avoiding accidents.

CR 2.4 emergencies are addressed, following the Protocol, adapting it according to the case.

CR 2.5 safety instructions are placed, clearly visible, along with appliances and equipment.

3 RP: Make implementation in service and verification of operation of solar thermal installations, from plans and specifications, following established procedures and applicable regulations.

CR 3.1 hydraulic circuits for leakage is verified, prior authorization by the competent authority, checking that it is in the conditions laid down.

CR 3.2 the circulation of the fluid, its hydraulic balanced and the behavior of the installation before the predictable expansions, overheating and sprays are verified, checking that they are within established limits.

CR 3.3 the functioning of the system of control, regulation and control is verified, by checking compliance with the conditions laid down and adjusting parameters to the reference listed in the project or technical report.

CR 3.4 use and basic maintenance information is produced and helps the customer, along with the relevant manuals.

4 RP: Operate the distribution system for primary and secondary circuits, accessories and elements of control and regulation of the solar thermal installation complying with the applicable rules and established procedures.

CR 4.1 operation manoeuvres are carried out according to the operating instructions or indications of standards, plans and technical specifications.

CR 4.2 data measures, radiation, temperature, pressure, flow, losses and consumption, are obtained and recorded in accordance with established procedures.

CR 4.3 operation of facilities is verified by comparing the data obtained with reference parameters and adjusting them looking for maximum energy efficiency.

CR 4.4 protection against overheating and frost installation (such as sensors, among other possible operations covering) is carried out according to established procedures.



Professional context: means of production: tools and measuring tools: thermometers, pressure gauges, flow meters, counters, digital meter, ammeter, buscapolo, meter isolation, Refractometer and pH meter. Hand tools: saw, wrenches, soldering, threading, limes, boring machine, tank charging pump. Security equipments. Signalling material.

The plant components: thermostats, switches, probes, sensors, heat exchangers, expansion tanks, storage tanks, pipes, valves, traps, resistors, motors, pumps, circulators, pipes, conductors, solenoid valves, measuring equipment, control equipment.



Products and results: solar heating systems put into service and operating.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Pressure testing procedures. Tests required by regulations concerning documentation. Records of the installation data (measures, radiation, temperature, pressure, loss, flow rate, consumption). Parts of the work. Technical specifications. Catalogues. Service manuals, use and maintenance. Safety instructions. Internal rules of work. Applicable regulations.



Unit 5 competition: Maintain installations solar thermal level: 2 code: UC0605_2 realizations professionals and completion criteria: RP 1: organize the maintenance work on solar heating systems according to established procedures of intervention.

1.1 CR plans and technical specifications of the equipment and facilities that you want to keep, they are interpreted, by determining the action to be performed and establishing the sequence of maintenance intervention, optimizing the process in terms of safety, method and time.

1.2 CR materials and other technical resources are selected according to the type of action.

CR 1.3 work area is prepared according to the own performance requirements and according to established procedures.

CR 1.4 coordination with those involved in the solar installation is done according to criteria of efficacy and safety.

CR 1.5 information on the repair process is transmitted to the user or customer, with particular attention to aspects that affect you.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the maintenance of solar heating systems, to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for the security in the maintenance of the facilities plan.

CR 2.2 means of protection against risks arising from maintenance, are selected and used avoiding accidents and minimizing the risk.

CR 2.3 areas of work under the responsibility of the operator are in order and clean, avoiding accidents.

CR 2.4 emergencies are met following the Protocol, adapting it according to the case.

3 RP: Perform the operations of preventive maintenance of thermal solar installations, drawings and technical specifications, fulfilling established procedures and applicable regulations, to operate within the parameters set.

CR 3.1 surface state of cleaning, finishing, insulation and leakage sensors, the concentration of antifreeze in the primary circuit, as well as the presence of air and pressure of the same are verified with the rated frequency.

CR 3.2 preventive maintenance for legionella control operations are performed according to applicable regulations.
CR 3.3 pipes, traps, valves, sensors, control elements and other components of the installation are reviewed, checking their status and, where applicable, shall be replaced according to established procedures and safe.

CR 3.4 of tracking energy consumption and evaluation of the performance of the equipment operations according to regulatory requirements.

CR 3.5 the results of inspections and operations are included in the report, incorporating them into the book or maintenance certificate.

CR 3.6 the equipment and tools used are reviewed by keeping them in a State of operation.

4 RP: Perform corrective maintenance in thermal solar installations, establishing the process of performance, using drawings and instructions manuals and restoring functional conditions with the quality and safety required, to restore functional conditions with established quality and safety.

CR 4.1 different faults are detected, analyzing them and valuing their causes.

CR 4.2 performance before the fault sequence is set optimizing the process in terms of method and time, selecting equipment, tools, materials, supplies and auxiliary means.

CR 4.3 the damaged item is replaced, following the sequence of the process of disassembly and Assembly established, within the planned time and with the required quality, checking its operation.

CR 4.4 installation functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 4.5 the parties and made repair reports are completed to update the historical record of peacekeeping operations.

4.6 HR book or a use and maintenance manual is updated, informing the customer of basic operations and controls that should be made for their part.

5 RP: Performing repair of components of the thermal solar installations, establishing the process of performance, using manual instructions and drawings, to restore functional conditions with required quality and safety.

CR 5.1 deteriorated elements discussed, identifying damaged or damaged parts.

CR 5.2 leaks in pipes and their joints and fittings are repaired through welding oxyacetylene or electric or other techniques appropriate to the material.

5.3 CR valves, pumps and other components of the installation disassembling, repairing, in his case, the damaged parts.

CR 5.4 functional tests for repaired components are conducted according to established procedures.

CR 5.5 the parties and reports carried out repair is completed, collaborating in the management of spare parts.



Professional context: means of production: tools and measuring tools: thermometers, pressure gauges, flow meters, counters, digital meter, ammeter, buscapolo, meter isolation, Refractometer and pH meter, measuring tape, marking tools. Hand tools: saw, spanners, welder, Riveter, pipe cutter, bending, threading, limes, drill, soldering equipment, tank charging pump. Security equipments. The plant components: thermostats, switches, probes, sensors, heat exchangers, expansion tanks, storage tanks, pipes, valves, traps, resistors, motors, pumps, circulators, electrical panels, pipes, drivers, solenoid valves, measuring equipment, control equipment. Different types of systems.



Products and results: solar heating system in a proper state of maintenance. Solar heating system repaired. Elements or components damaged, electric and hydraulic, repaired.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Technical specifications. Catalogues. Book or manual of use and maintenance. Programs and maintenance procedures. Inspection reports. Book or certificate of maintenance. Parts and service reports. Parts of the work. Databases. Specific computer applications. Internal rules of work. Applicable regulations.



TRAINING module 1: layout of installations solar thermal level: 2 code: MF0601_2 associated with UC: rethink solar heating duration: 90 hours capabilities and evaluation criteria: C1: analyze hydraulic and thermodynamic performance of thermal solar installations determining their characteristics and elements related to the Assembly.

CE1.1 reason the operation of a solar heating system, taking into account factors of radiation and climate, as well as the physical principles for the use of solar energy.

CE1.2 describe the general hydraulic operation of a solar heating system based on the corresponding plans.

CE1.3 list hydraulic components that make up the solar heating systems, whereas the function performed.

CE1.4 compare the essential components that integrate a solar absorption cooling installation and one for drying.

CE1.5 describe the fundamental requirements of the regulations applicable to such facilities.

CE1.6 describe the thermodynamic overall functioning of a system of air conditioning from solar energy by adsorption machines, desiccants cycles and absorption.

C2: Analyze the operation of electrical installations which require solar thermal systems.

CE2.1 explain electric general operation of a solar heating system and their systems of control based on the corresponding plans.

CE2.2 list and describe the role that made electrical components that integrate solar thermal installations.

CE2.3 describe the fundamental requirements of the regulations applicable to such facilities.

C3: Interpreting solar heating projects performing layout operations and other related installation.

CE3.1 analyze the documents that make up a project, technical report or a manual installation of a solar thermal installation, distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE3.2 represent principle diagrams, sketches and isometric diagrams of a solar heating system and its components, facilitating installation.

CE3.3 interpret graphical information of solar heating systems produced in systems of representation, performing basic operations of copying or modification of data, using standardized procedures pertaining to specific applications of design and representation of solar heating systems.

CE3.4 perform stakeout and marking the location of anchors, supports, layout of piping and other components of the solar heating on the basis of drawings and technical documentation.

CE3.5 describe the requirements of signage in the area of work according to the site.

CE3.6 set the sequence of intervention and nature of actions in reform of heating system joins the solar systems from the respective projects or technical reports.

CE3.7 in a practical course of reconsideration of a solar heating system, starting from the drawings and technical documentation:-identify the collectors and the different hydraulic components of the installation, locating its location.

-identify circuits and electrical equipment installation, locating its location.

-Specify the characteristics of each of the hydraulic elements that compose it: collectors, primary and secondary circuits, heat exchangers, storage tanks, expansion tanks, circulation pumps, pipes, traps, flow meters, valves and adjustment components.

-Specify the characteristics of each of the elements of the circuits and electrical equipment that compose it: differential thermostat, temperature sensors, pumps, circulators, valves, pictures of protection and control.

-Explain the hydraulic and thermodynamic performance installation, describing the function, structure and composition of the different parts that make it up.

-Explain the functioning of the systems of regulation and control.

-Perform the operations of setting out and mark the location of the components.

-Mark the area of work.

-Relate the composition and characteristics of the solar heating system with the regulatory requirements that are applicable to it.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.7.

Other capabilities: demonstrate a good make professional.

Propose alternatives with the aim of improving results.

Get used to the pace of work of the organization.

Responsible for the work that develops.

Demonstrate flexibility to understand changes.

Interpret and execute work instructions.



Contents: 1. general operation of solar heating solar energy and heat transmission. Types of solar heating of low, medium and high temperature.

Overall functioning and installation configuration.

Systems of safety in the operation of the facilities.
Specification and description of equipment and constituent elements: collectors, primary and secondary circuits, heat exchangers, storage tanks, expansion tanks, circulation pumps, pipes, traps, flow meters, valves and adjustment components.

Heating auxiliary and support systems. Heating, domestic hot water, swimming pools.

Solar cooling: absorption systems. Other technologies of solar cooling (adsorption, drying).

Applicable regulations in building, heating, security, relative to solar systems and environmental protection thermal.



2. symbolic representation of solar system dihedral and croquizado.

Systems of representation. Representation in perspective of facilities.

Hydraulic symbols. Electrical symbols. Representation of electrical circuits.

Diagram and multicore. Diagrams and functional symbolic diagrams.



3. projects of solar heating concept and types of projects. Memory, plans, budget and specifications.

Levels of situation. Detail and assembly drawings. Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules.

Procedures and layout of facilities operations. Specific applications of representation and aided design. Display and interpretation of scanned drawings. Basic operations with graphics files.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the reconsideration of solar heating systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: mounting mechanical and hydraulic installations solar thermal level: 2 code: MF0602_2 associated with UC: mounted sensors, equipment and hydraulic circuits of solar heating duration: 180 hours capabilities and evaluation criteria: C1: organizing work for mechanical and hydraulic installation of solar heating systems according to the project and established work procedures.

CE1.1 describe the various techniques used in the processes of mechanical and hydraulic installation of solar heating systems: Assembly, screw, tapping, riveting, welding, anchoring and connection.

CE1.2 identify the materials and tools used in the different processes of installation of solar heating systems, according to the established work procedures.

CE1.3 relate the human resources involved in different phases of operations of installation of solar heating systems, according to the established work procedures.

CE1.4 describe the procedures of optimization of Assembly work.

CE1.5 represent the schemes of organization of work and time control in the hydraulic and mechanical Assembly of solar heating systems through diagrams and schedules, taking into account the level is that.

CE1.6 in a practical course of mounting mechanical and hydraulic of a prefabricated solar thermal installation, set the sequence of installation drawings and technical documentation, optimizing the process in terms of safety, cost, method and time.

CE1.7 in a so-called practical of hydraulic and mechanical installation of a solar thermal that contains at least two sensors, two circuits, heat exchanger, hot water accumulator and installation of support, based on the plans of the installation and commissioning manuals.

-Select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the techniques of mechanical and hydraulic Assembly in the key points of the installation.

C2: Analyze the measures of prevention and safety with respect to the mechanical and hydraulic mounting of solar heating systems according to the plans of security of the companies in the sector.

CE2.1 identifying, evaluating them, occupational hazards present in the hydraulic and mechanical Assembly of solar heating systems.

CE2.2 propose corrective and preventive measures against the risks detected including selection and use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements resulting from the performances of hydraulic and mechanical mounting of solar heating systems.

CE2.4 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations related to the mechanical and hydraulic mounting of solar heating systems.

CE2.6 analyze the protocols of action possible emergencies arising during mechanical and hydraulic installation of solar heating systems.

CE2.7 analyze the requirements for first aid and transfer of injured in different cases of accidents arising from the mechanical and hydraulic mounting of solar heating systems.

C3: Operations of mechanical and hydraulic installation of solar heating systems from technical documentation, using the tools, equipment and materials established and acting under safety rules.

CE3.1 describe the methods and procedures to move equipment and materials in conditions of security, analyzing the criteria for its location.

CE3.2 place supports and anchorages respecting the planned expansions, using tools, equipment and materials indicated.

CE3.3 place getters with established tilt and orientation.

CE3.4 operating the equipment and tools of preparation, creation, union and placement of sensors, pipes and components of different materials, acting under safety rules.

CE3.5 apply methods and techniques employed in the protection of collectors, tanks, piping and accessories whereas the different materials used in solar thermal installations.

CE3.6 apply techniques of thermal insulation on pipes and fittings, using tools, equipment and materials indicated.

CE3.7 in a so-called practical of hydraulic and mechanical installation of a solar thermal that contains at least two sensors, two circuits, heat exchanger, hot water accumulator and installation of support, from the technical documentation:-prepare the work area in accordance with the requirements of the work itself, identifying the specific risks and proposing corrective measures.

-Browse, then locate the equipment and materials safely, according to the work to be done.

-Check the marking on the ground and the reconsideration of the installation for the placement of brackets.

-Place the supports and anchorages on the basis of the foreseeable efforts to support.

-Position sensors with tilt appropriate to the geographic area and other installation requirements.

-Assembling of the exchanger, storage tank, circulation pumps and other elements of the installation.

-Make the rough plumbing, your Assembly with the elements of the curved installation, welding, riveting, bolting or other procedures, and its connection to the auxiliary heating system, taking into account the possible expansions and using established procedures.

-Assemble and implement protections against corrosion.

-Thermally insulated pipes and elements that require it to meet technical specifications and the applicable regulations.

-Leave the work environment in the conditions after operations.

-Generate report on performed work, anomalies and incidents.

Skills whose acquisition must be completed in a real work environment: CE1.7 regarding C1 and C3 with respect to CE3.7.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Interpret and execute work instructions.

Get used to the pace of work of the organization.



Contents: 1. Organization of the installation of solar heating systems installation specifications.
Preparation of mechanical and hydraulic Assembly facilities: phases, the installation of solar heating systems, work plan organization.



2. subject of solar heating systems civil engineering structures: displacement and hoisting equipment and materials. Types of efforts. Elementary calculation of efforts.

Resistant structures. Types. Materials. Supports and anchorages. Resistance of building elements. Architectural integration. Aesthetics and technique.

Regulatory procedures of verification and inspection.



3. mounting of solar heating systems types of sensors. Specifications.

Pooling and connection systems.

Orientation and inclination. Shadows.



4. mounting of solar heating materials used in plumbing hydraulic circuits and components. Types of joints of pipes and fittings. Welds, techniques and methods. Thermal insulation systems. Protections of sensors, pipes and fittings. Primers. Cathodic protection.

Supplies, tools and means employed in the Assembly. Techniques of use. Mounting of valves, pumps and circulators. Mounting of machines and equipment. Techniques and Assembly, settlement, alignment and clamping operations.



5. quality in solar heating quality in the mounting Assembly.

Technical requirements and quality control specifications.

Quality control of materials used in the Assembly. Quality in Assembly operations. Basic economic and strategic aspects of quality.

Technical documentation of the quality processes. Procedures manual.



6. safety in the mechanical Assembly of solar thermal facilities security plans in the mechanical Assembly of solar heating systems.

Prevention of occupational hazards in the field of the mechanical Assembly of the solar thermal facilities.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Assembly of sensors, equipment and hydraulic circuits of thermal solar installations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: mounting electrical installations solar thermal level: 2 code: MF0603_2 associated with UC: assemble circuits and electrical equipment of solar heating duration: 90 hours capabilities and evaluation criteria: C1: organizing work for the Assembly of circuits and electrical equipment of thermal solar installations in accordance with the corresponding project and established work procedures.

CE1.1 describe the various techniques used in the Assembly of circuits and electrical equipment of solar heating processes: fixing, embedding, tended, flanged, Assembly, soldering and connecting.

CE1.2 identify the materials and tools used in the different processes of Assembly of circuits and electrical equipment of solar heating systems.

CE1.3 relate the human resources involved in different phases of the operations of Assembly of circuits and electrical equipment of solar heating systems according to the established work procedures.

CE1.4 optimize the installation from the point of view of safety, functionality and economy of time, means and cost, according to the established work procedures.

CE1.5 represent the schemes of work organization and time control in the electric installation of solar heating systems through diagrams and schedules appropriate to their level.

CE1.6 in a so-called practical electrical installation of a solar thermal that contains at least two sensors, two circuits, heat exchanger, storage tank for domestic hot water and installation of support, based on the plans of the installation and commissioning manuals:-select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the techniques of electrical Assembly on the key points of the installation.

C2: Analyze the measures of prevention and security regarding the mounting of circuits and electrical equipment of solar heating systems considering security of the companies of the sector plans.

CE2.1 identifying, evaluating them, occupational hazards present in the Assembly of circuits and electrical equipment of solar heating systems.

CE2.2 propose preventive and corrective measures to the detected risks, including selection and use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements arising from actions of Assembly of circuits and electrical equipment of solar heating systems.

CE2.4 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations Assembly of circuits and electrical equipment of solar heating systems.

CE2.6 analyze the protocols of action possible emergencies arising in the Assembly of circuits and electrical equipment of solar heating systems.

CE2.7 analyze the requirements for first aid and transfer of injured in different cases of accidents arising from the Assembly of circuits and electrical equipment of solar heating.

C3: Carry out assembly operations of circuits and electrical equipment of solar heating systems from technical documentation, using the tools, equipment and materials established and acting under safety rules.

CE3.1 describe the requirements of work areas and procedures for the preparation, by determining the specific electrical hazards and corrective measures.

CE3.2 describe the methods and procedures to move equipment and materials safely and analyse the criteria to determine its location, from the technical documentation.

CE3.3 describe the types of supports and usual anchors in electrical installations and placement procedures respecting regulatory clearances.

CE3.4 analyze the techniques and procedures of installation and connection of conduits and conductors.

CE3.5 analyze the techniques of installation and connection of electrical panels, protection and control, thermostats, sensors and other electrical elements of the solar heating.

CE3.6 operating the equipment and tools for preparing, placing and connecting electrical elements of the solar heating, from the technical documentation.

CE3.7 in a so-called practical electrical installation of a solar thermal that contains at least two sensors, two circuits, heat exchanger, hot water accumulator and a support facility, using the tools, equipment and materials indicated:-prepare the work in accordance with the requirements of the work area, identifying the specific electrical hazards and to take corrective measures - move and place equipment and materials , in conditions of security, according to the work to be done.

-Carry out the layout of the electrical installation, from the technical documentation.

-Fit the required electrical panels.

-Distribute the elements and necessary equipment: electrical panels, protection and control, pipes, conductors, record boxes, thermostats, temperature sensors, pumps, circulators, solenoid valves.

-Assembling of pipes and drivers.

-Connect the box electrical protection and control, thermostats, sensors and other sensors signals as well as electrical conductors according to the electrotechnical regulation of low Tension and other normative of implementation.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.6; C3 on CE3.6 and CE3.7.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.
Complete the work according to criteria of fitness, speed, economy and efficiency.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Interpret and execute work instructions.

Get used to the pace of work of the organization.



Contents: 1. drive and electrical control in solar heating systems classification of electric power supply facilities. Rush and pictures of general protection. Protections. Types and features. Pipes and pipelines. Drivers.

Power generation machines. Motors and pumps. Maneuver and protection.

Measurement of electrical quantities. Maneuver in low voltage electrical elements. Principles of regulation and control. Programmable Automat.



2. mounting of circuits and electrical equipment of solar thermal specifications for system installation.

Procedures and operations in preparation for the Assembly of electrical installations.

Mounting of circuits and electrical equipment of solar heating systems. Phases. Organization of the Assembly of circuits and electrical equipment of solar heating systems.

Techniques and procedures. Identification and selection of equipment and necessary elements for the Assembly based on the plans of the installation.

Supplies, tools and means employed in the Assembly. Techniques of use. Supports and anchorages. Installation and connection of protection, command, control and signalling elements. Assembly, connection and commissioning of circulators, pumps and electric motors.



3. Security in the electric installation security plans in the electrical installation of solar heating systems.

Prevention of occupational hazards of electrical origin in the field of thermal solar energy facilities.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Assembly of circuits and electrical equipment of solar heating systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: putting into service and operation of installations solar thermal level: 2 code: MF0604_2 associated with UC: commissioning and operating solar heating duration: 60 hours capabilities and evaluation criteria: C1: perform checking prior to implementation in solar heating service, complying with the applicable rules.

CE1.1 analyze the types and characteristics of hydraulic and electrical interconnection between the solar heating systems and auxiliary facilities or support and the procedures used to check its realization.

CE1.2 describe the procedures used to carry out the regulatory pressure and tightness tests.

CE1.3 describe the requirements of cleaning and disinfection of the solar thermal facilities, complying with the applicable rules.

CE1.4 analyze the techniques used in the prevention of legionellosis, complying with the applicable rules.

CE1.5 analyze the procedures of filling in the primary circuit with different fluids 700ºc.

CE1.6 describe the regulatory requirements in the realization of connections of electrical circuits and elements of regulation.

CE1.7 in one or more practical cases of commissioning and operation of thermal solar installations mounted with different materials, from the technical documentation:-check the interconnection between the solar installation and support.

-Perform the statutory tests of sealing and mechanical strength of hydraulic circuits.

-Clean and disinfect hydraulic circuits and components.

-Fill with the indicated fluid circuits.

-Check the protections and the thermal insulation of the sensors and circuits.

-Check that the connections of electrical circuits and elements of regulation has been made according to technical specifications and applicable regulations.

-Complete documentation to the tests required by regulation.

C2: Analyze the measures of prevention and safety regarding the commissioning of solar heating systems contained in the security of the companies of the sector plans, complying with the applicable rules.

CE2.1 identifying, evaluating them, occupational hazards arising from pressure and commissioning tests in service of solar heating systems.

CE2.2 propose preventive and corrective measures to the detected risks, selecting and determining the use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements derived from the actions of implementation in solar heating service, complying with the applicable rules.

CE2.4 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations related to the commissioning of solar heating systems relating the safety instructions which must be added next to the teams.

CE2.6 analyze the protocols of action possible emergencies arising in the commissioning of solar heating systems.

CE2.7 analyze the requirements for first aid and transfer of injured in different cases of accidents arising from testing pressure and putting in service of solar heating systems.

C3: Perform start-up operations in service of solar heating systems, using tools, equipment and materials indicated.

CE3.1 describe the sequence of operation and the procedures and techniques employed in the commissioning of solar heating, complying with the applicable rules.

CE3.2 describe the methods and techniques to verify the tightness of hydraulic circuits and components.

CE3.3 programming of differential thermostats and other elements of control of solar heating systems.

CE3.4 analyze the procedures for checking the operation of security systems, maneuver, regulation and control of the solar thermal facilities, complying with the applicable rules.

CE3.5 analyze the procedures to verify the energy efficiency of the solar heating system.

CE3.6 relate the information that must be delivered to the user of the installation by analyzing the relevant technical manuals.

Thermal CE3.7 in a so-called practical commissioning and operation of a solar installation that contains at least two sensors, two circuits, heat exchanger, hot water accumulator and installation of support, from the technical documentation:-check that the sensors are operating.

-Set the control elements.

-Make the implementation to installation service.

-Check the functioning of circulators and pumps, the direction of flow of the fluid and hydraulic balancing circuit is established.

-Check that the operation of systems of safety, control, regulation and control is established.

-Check that heat transfer is carried out according to the provisions.

-Prepare the information to hand over to the user of the installation by analyzing the relevant technical manuals.

C4: Perform maneuvers of operation in solar heating systems, using tools, equipment and materials indicated.

CE4.1 point out the elements of a solar heating system that can be operated manually or automatically considering the consequences of its handling.

CE4.2 perform measurements of radiation, temperature, pressure, flow rate, intensity, energy, power and other measures of variables using and interpreting different measuring instruments.

CE4.3 prepare and analyze the data of the various measures in relation to the operation and established control of the facilities.

CE4.4 describe the procedures of control and regulation of sensors.

CE4.5 describe the procedures of control and regulation of circulators, pumps or other items.

CE4.6 describe the methods to prevent the consequences of overheating of solar installations.

CE4.7 analyze the procedures to stop out of service temporarily facilities.
Thermal CE4.8 in a so-called practical commissioning and operation of a solar installation that contains at least two sensors, two circuits, heat exchanger, hot water accumulator and installation of support, from the technical documentation:-measurements of radiation, temperature, pressure and flow at critical points of the installation and set up balance sheets and thermal performance.

-Measurements of voltage, intensity and power of the different electric receivers and relate them to your plate.

-Act on the control and regulation of circulators, thermostats, valves and other components for installation balanced hydraulically and performance with maximum energy efficiency.

-Act on the anti legionella protection system.

-Perform the operations to stop out of service temporarily installation.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C3 on CE3.7; C4 on CE4.8.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Interpret and execute work instructions.

Get used to the pace of work of the organization.

Demonstrate flexibility to understand changes.

Complete the work according to criteria of fitness, speed, economy and efficiency.



Contents: 1. operations prior to the commissioning of solar heating techniques of checking for protection and insulation of pipes and fittings.

Leak and pressure tests. Mechanical resistance tests.

Cleaning and disinfection of circuits and facilities. Prevention of legionellosis.

Industrial signage. Signalling of hydraulic pipes. Color code.



2. commissioning and operation of solar thermal installations procedures for commissioning of solar heating systems.

Manual and automatic systems for facilities operation.

Trials of installations and equipment. Measurements of parameters. Procedures. Instruments. Parameters setting, regulation and control in solar heating systems.

Operation, adjustment, regulation and control of sensors, accumulators, heat exchangers, pumps and valves.

Harmful factors and its treatment: presence of air. Dilations. Vibrations. Water hammer arrestor. Fluid heat.

Antifreeze. Discharges. Usual manoeuvres in the exploitation of a solar heating system.

Maneuvers of commissioning and installation failure.

Procedures for leaving out of service temporarily thermal solar installations.



3. Security in the commissioning of solar thermal facilities security plans in the commissioning of solar heating systems.

Prevention of occupational hazards in the field of commissioning of solar heating systems. Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection. Emergencies. Evacuation. First aid. Areas of work. Safety signage. Safety instructions. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the commissioning and operation of solar thermal facilities, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 5: maintenance of installations solar thermal level: 2 code: MF0605_2 associated with the UC: maintain solar heating duration: 120 hours capabilities and evaluation criteria: C1: analyze the general operation of the solar heating systems for developing the maintenance plan.

CE1.1 describe the operation of a solar heating system from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 describe the requirements of maintenance of such facilities taking into account the applicable regulations.

CE1.3 identify elements that should perform preventive maintenance, starting from a specific program of maintenance at a level of a solar thermal.

CE1.4 explain the consequences, whereas a given installation, of the faults in their critical points.

Thermal CE1.5 in a so-called practical maintenance of a solar system containing at least two sensors, two circuits, heat exchanger, storage tank for domestic hot water and installation of support, based on the plans of the installation and commissioning and maintenance manuals:-develop the overall program of actions for maintenance.

-Determine the types of operations to be carried out.

-Determine the periodicity of operations to perform.

-Determine the times for each intervention.

-To determine the technical and human resources involved in the operations.

C2: Analyze the measures of prevention and safety with respect to the maintenance of solar heating systems, taking into account security of the companies of the sector plans.

CE2.1 identifying, evaluating them, the professional risks involved in the maintenance of solar heating systems.

CE2.2 propose preventive and corrective measures to the detected risks, selecting and determining the use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements arising from maintenance of solar heating performances.

CE2.4 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze aspects of safety regulations relating to the maintenance of solar heating systems.

CE2.6 analyze the protocols of action possible emergencies arising during performances of maintenance of solar heating systems.

CE2.7 analyze the requirements of first aid and transfer of injured in different cases of accidents arising from the maintenance of solar heating systems.

C3: Performing preventive maintenance of solar heating systems, using tools, equipment and materials indicated.

CE3.1 provide the scope and complexity of the activity, determining the consequences for users of the lack of supply and organizing work to minimise these consequences.

The CE3.2 is managing, preparing and using materials, equipment and tools necessary to carry out the maintenance work.

CE3.3 analyze the need of performing preventive maintenance on equipment and components of the solar heating according to the established method.

CE3.4 describe the procedures of each of the operations of preventive maintenance that should be performed on equipment and components of the solar heating, indicating the tools, equipment and materials needed.

CE3.5 in a practical course of maintenance of a solar heating system containing at least two sensors, two circuits, heat exchanger, hot water accumulator and a support facility, and from the planes of the installation and commissioning and maintenance manuals:-identify the elements that preventive maintenance is required.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying specific occupational hazards and corrective measures.

-Carry out operations of cleaning and adjustment.

-Carry out preventive maintenance for the control of legionella according to applicable regulations.

-Check that in periods of high solar radiation and low consumption the temperatures and pressures of the installation are those allowed and do not cause negative consequences for the installation.

-Operations of emptying and partial filling of the primary circuit.

-Check pressure, tightness, air and concentration of antifreeze in the circuits.

-Check general condition of supports, protections and insulating material.

-Check the regulation of the installation and the hydraulic and thermal, balanced according to the obtained measures and technical specifications, optimizing performance with criteria of efficiency and checking its operation.

-Review and maintain operation equipment and tools used in maintenance.

-Complete review of performance.
-Complete book-keeping.

C4: Performing corrective maintenance of thermal solar installations using the tools, equipment and materials indicated.

CE4.1 diagnose the common faults that may occur in the solar heating systems, determining the cause and its effects on the system.

CE4.2 describe the procedures of each of the operations of maintenance that should be performed on equipment and facilities components, indicating the tools, equipment and materials indicated.

CE4.3 describe the tools and ancillary equipment used in the corrective maintenance operations, reasoning his way of use and conservation.

CE4.4 in one or more practical cases of maintenance of solar thermal facilities damaged, from the technical documentation:-identify the possible faults and their causes.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying specific occupational hazards and corrective measures.

-Describe the repair procedure, isolating the circuit or component if necessary.

-Replace the defective item.

-Connect the system.

-Check the functioning of the system, as set out.

-Review and maintain operation equipment and tools used in maintenance.

-Complete review of performance.

-Complete book-keeping.

C5: Operations of repair of the solar heating elements, using the tools, equipment and materials indicated.

CE5.1 describe the parts that make up each item of the solar heating system, analyzing their functions.

CE5.2 describe, in the scope of their powers, the repair techniques of the different hydraulic and electrical elements that compose the solar heating systems: collectors, tanks, heat exchangers, pumps, glass of expansion, valves, pipes, electric circuits and other components.

CE5.3 use gas and electric welding in the repair of leaks in pipes, fittings and accessories, in accordance with safety regulations.

CE5.4 in a practical course of repairing small leaks in elements, spare boards, subassemblies and parts replacement, failures of electrical connection and mechanical breakdowns of the elements of a solar thermal installation, from the corresponding technical documentation:-identify damaged parts of the element.

-Carry out the repair of the damaged item.

-Check its operation.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.5; C3 on CE3.5; C4 on CE4.4; C5 regarding CE5.4.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Show some autonomy in the resolution of small contingencies related to its activity.

Treat the customer with courtesy, respect and discretion.

Get used to the pace of work of the organization.

Complete the work according to criteria of fitness, speed, economy and efficiency.



Contents: 1. general operation of a solar thermal solar thermal facilities maintenance.

Procedures and operations to take action. Checking and adjusting the parameters to set values (hydraulic and thermal, balanced temperatures, pressures of running, among others).

Performance program. Solar heating systems maintenance programs.

Manuals. Projects. Critical faults. With rules of application in the maintenance of solar heating systems.



2. preventive maintenance of solar heating systems preventive maintenance program.

Energy management program. Monitoring of consumption. Evaluation of performance.

Mechanical operations in the maintenance of facilities. Electric circuit operations. Equipment and tools.

Cleaning and disinfection of sensors, batteries, and other elements of the facilities. Preventive maintenance for the control of legionellosis. Measurements of physical parameters.



3. corrective maintenance of solar heating systems troubleshooting.

Procedures for hydraulic and electrically isolate the different components.

Methods for the repair of components of the facilities. Repair by welding. Disassembly and repair or replacement of pipes, valves, circulators, electric elements.



4. quality in maintenance of quality thermal solar systems maintenance. Technical requirements and quality control specifications. Quality tools applied to the improvement of peacekeeping operations. Technical documentation of the quality. Reports and control parts. Maintenance manual.



5 maintenance safety security plans in the maintenance of solar heating systems.

Prevention of occupational hazards in the area of the maintenance of solar heating systems. Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the maintenance of thermal solar installations, which will be using one of the following ways:-academic training of level 2 (Spanish higher education qualifications framework)), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex II professional qualification: installation and maintenance of networks of professional family water: energy and water level: 2 code: ENA191_2 general competition mounting, commissioning, operation and maintenance of water and sanitation networks, with the quality and safety required and comply with the applicable rules.



Competition UC0606_2 units: rethink distribution networks of water and sanitation UC0607_2: assemble networks of distribution of water and sanitation UC0608_2: placing in service and operation of distribution networks of water and sanitation UC0609_2: maintain networks of distribution of water and sanitation environment professional scope professional develops his professional activity in the area of production dedicated to the Assembly operation and maintenance of distribution networks of water and sanitation, in entities of public or private nature-sized businesses small, medium or large, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Productive sectors this qualification is located in the energy sector, sub-sector of collection, purification and distribution of water, in productive activities is performed the installation, management and maintenance of catchment, distribution of water and sanitation facilities.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Editors of supply and water distribution networks assemblers of networks and sanitation maintenance of water networks maintenance of sanitation training associate (450 hours) training modules MF0606_2: reconsideration of distribution networks of water and sanitation (60 hours) MF0607_2: installation of distribution networks of water and sanitation (180 hours) MF0608_2: commissioning and operation of distribution networks of water and sanitation (60 hours) MF0609_2 : Maintenance of distribution networks of water and sanitation (150 hours) unit of competition 1: Rethinking networks of distribution of water and sanitation level: 2 code: UC0606_2 realizations professionals and completion criteria: RP 1: rethink supply and distribution of water from a project or technical report for Assembly.

CR 1.1 type of installation of supply and water distribution networks is identified from the plans and technical specifications corresponding to distinguishing its energy and functional characteristics.
CR 1.2 components of Assembly or installation as well as its functional features and specifications are identified from drawings and technical specifications corresponding, locating its location.

CR 1.3 possible discordance between the design of the installation and the own site, determines, by adopting the technical and organizational decisions that apply.

1.4 CR locations and characteristics of anchorage, supports and connections of the different components and construction elements are previously determined to be assembled.

CR 1.5 necessary complementary schemes for the layout and Assembly of water distribution networks are carried out where required.

CR 1.6 the layout of piping and other elements of the network is marked on the ground from the project, taking into account the characteristics of the site and checking the possible affected services, to allow for its installation.

CR 1.7 work area affected in the supply and water distribution networks is indicated according to regulatory requirements.

2 RP: Rethinking sewage from a project or technical report for Assembly.

CR 2.1 the sewage network is identified from the plans and technical specifications corresponding to distinguishing its energy and functional characteristics.

CR 2.2 components of the network for sanitation as well as its functional features and specifications are identified from plans and specifications corresponding, locating its location.

CR 2.3 possible discordance between the design of the installation of sanitation and the own site, determines, by adopting the technical and organizational decisions that apply.

CR 2.4 locations and characteristics of anchorage, supports and connections of the different components and construction elements are established previously to be assembled.

CR 2.5 necessary complementary schemes for the layout and Assembly of distribution of water and sanitation networks are in those cases where is required.

CR 2.6 the layout of piping, Wells registry, boxes and other elements of the network is marked on the ground from the Setup project, taking into account the characteristics of the site and checking the possible affected services, to allow for its installation.

CR 2.7 affected work area is indicated according to regulatory requirements.

3 RP: Rethinking the performances of modification of supply and distribution of water and sanitation for its improvement from a project or technical report.

CR 3.1 the type of installation to reform is identified from the plans and technical specifications corresponding, distinguishing their energy and functional characteristics.

CR 3.2 components of the existing installation as well as its functional features and specifications are identified from drawings and technical specifications corresponding, locating its location.

CR 3.3 the performance of reform or change desired and the intervention sequence is established from the interpretation of drawings and technical specifications of the projects of modification of networks, equipment and installations, optimizing the process in terms of safety, method and time.

CR 3.4 necessary complementary schemes for the layout and Assembly of the reform of distribution of water and sanitation networks are in those cases where is required.

3.5 CR location, layout and marking of piping, components and accessories that have to improve or add in distribution of water and sanitation networks is done on the ground, from the project of reform, taking into account the characteristics of the site and checking the possible affected services, to allow intervention.

CR 3.6 work area affected by reform is indicated according to regulatory requirements.



Professional context: means of production: drawing tools. Specific computer applications. Marking tools. Picas, marking material. Security equipments.



Products and results: interpreted and redesigned network of sanitation facilities. Changes in order of water and sanitation networks.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Schemes for the layout and Assembly. Internal rules of work. Applicable regulations.



Unit 2 competition: Assemble networks of distribution of water and sanitation level: 2 code: UC0607_2 realizations professionals and completion criteria: RP 1: organize the work of assembling networks of supply and distribution of water and sanitation, as well as collectors and elements of facilities implied to the network, according to the corresponding project system.

CR 1.1 the Assembly sequence is established from drawings and technical documentation, optimizing the process in terms of safety, method and time.

CR 1.2 materials, tools and other technical resources are selected according to the type of work and Assembly that you want to perform: System Plug joints flexible gasket, flexible gasket and Mechanical clamping, anchored joints double socket, flange, threaded, elements, together by union of butt welding, electrofusion elements, by electric welding.

CR 1.3 receipt of components is done inspecting and evaluating the State of the same, determining their adequacy to the technical requirements.

CR 1.4 work area is prepared in accordance with the requirements of the work itself and according to established procedures.

CR 1.5 the coordination with the different people involved in the work, at the level of the worker, is done according to criteria of efficacy and safety.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan, during installation of supply and distribution of water and sanitation to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for the security in the Assembly of the network plan.

CR 2.2 environmental protection requirements are identified in the documentation, considering them to be applied in the execution of the installation.

CR 2.3 the protections of slopes, the shoring, the dewatering and other means of protection and additional measures against risks arising from the Assembly, are selected and used avoiding accidents and minimizing the risk, according to the project.

CR 2.4 areas of work, under the responsibility of the operator, are maintained in clean and in order, avoiding accidents.

CR 2.5 emergencies are met following the Protocol, adapting it according to the case.

3 RP: Assemble networks of supply and distribution of water and sanitation, based on plans and specifications, compliance with the applicable rules and established procedures.

3.1 CR materials and equipment move and placed with the means of transport and lifting, which preventing the deterioration of the same.

CR 3.2 excavation, protection of slopes, the shoring, the saneos, the implementation of necessary drainage, the preparation of the points of placement of the tubes and heads the points of introduction of the knots, the establishment of the massifs of anchorage, preparation and leveling bed and other operations in ditches are examined, checking that they run according to established procedures and specifications of the project.

CR 3.3 brackets and tubing anchor points are placed according to the specifications of the project, allowing, where appropriate, planned expansion of the network.

CR 3.4 water distribution lines laying is performed with slopes and design the devices required, ensuring both the Elimination of the air as its introduction, as appropriate, in all the layout, as well as total emptying of the same to facilitate future maintenance and operation performances.

CR 3.5 sanitation pipe laying is performed with the slopes, design and established devices to ensure their functionality.

4 PR: Connect accessories and elements of regulation and control of networks of pipe supply and distribution of water and sanitation, based on plans and specifications, compliance with the applicable rules and established procedures.

CR 4.1 types and characteristics of equipment and assembled elements are controlled, guaranteeing that they will resist the pressure and working temperature and which respond to the function they have to perform.

CR 4.2 the tongue and Groove, systems of sleeve, stamping, welding, the encopada union, the flanged, driving and other elements and connecting pipes Assembly techniques, are carried out according to the type of material used, necessary tools, supplies, and procedures, getting set for leaks.

CR 4.3 assembled elements and plumbing connections are protected from stress or mechanical stress, allowing the planned expansion and isolating them from vibrations.
4.4 CR pumps, valves, suction cups, adjustment components and accessories are installed, allowing access for its handling and maintenance in safe conditions.

CR 4.5 flowmeters, pressure switches, probes of level and other detectors of the variables of the system, are mounted according to the technical specifications to allow the indication of the measured magnitude without disturbance.

CR 4.6 protections against corrosion, oxidation and mechanical impacts and the thermal insulation of networks and elements are carried out according to the established technical requirements.



Professional context: means of production: support systems, equipment for movement of materials, tractel. Tools and measuring tools: thermometers, pressure gauges, flowmeters, measuring tape, circometer, compass thicknesses, level, scale ruler, gauge, electrical measuring equipment. Marking tools. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, leak detection equipment. Groups of pressure, bilge pumps, water tanks, filling balls. Security equipments. Signalling material. Rehabilitation technologies. Detection by such, sensors in continuous systems. Factors of exploitation by zoning. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, Wells's record.



Products and results: facilities and mounted water distribution networks. Facilities and sanitation networks mounted. Facilities and rehabilitated water and sanitation networks.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Technical specifications. Catalogues. Service manuals and use. Programs and mounting procedures. Mounting and operating instructions. Parts of the work. Specific computer applications. Internal rules of work. Applicable regulations.



Unit 3 competition: Putting in service and operate networks of distribution of water and sanitation level: 2 code: UC0608_2 realizations professionals and completion criteria: RP 1: operations prior to start up of supply networks and distribution of water and sanitation, based on plans and specifications, compliance with the applicable rules and established procedures.

CR 1.1 ditches are filled in the central areas of pipes to counteract the effects of anticipated thrusts during testing of the network, allowing the inspection of heads and joints, and checking its execution.

CR 1.2 hydraulic circuit pressure tests are performed for each network in the regulatory conditions and established security sector.

CR 1.3 functional tests of pumps, valves, circuits of maneuver, probes, and other teams are checking the values of the variables of the system with reference to the established set.

CR 1.4 final filling with compost or work, the ridges of settlement, the floors, signalling tape placement and compaction and surface finishing are examined, checking that they are made according to technical specifications and applicable regulations.

1.5 CR surplus materials are removed, leaving the area affected by the mounting without obstacles in perfect condition.

1.6 CR cleaning, disinfection and subsequent washing of the networks for consumption, are made prior to the implementation in service of the network by following established procedures.

CR 1.7 documentation the results of the tests required by regulation is carried out as established.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the commissioning of supply and distribution of water and sanitation networks, to prevent accidents and minimize risks.

2.1 CR occupational risks derived from tests of pressure and put in service are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.2 means of protection against risks arising from the pressure and commissioning tests, are selected and used to prevent accidents and minimize the risk.

CR 2.3 work of their responsibility areas are kept in order and clean to prevent accidents and minimize the risk.

CR 2.4 waste materials generated at the facility are treated or recycled according to the requirements and in line with environmental plans.

CR 2.5 emergency situations are addressed, following the Protocol, adapting it according to the case.

3 RP: Commissioning and check supply networks and distribution of water and sanitation, based on plans and specifications, fulfilling established procedures and applicable regulations.

CR 3.1 commissioning of the network is carried out, following the procedures established by the company and complying with the applicable regulations.

CR 3.2 hydraulic circuits for leakage is verified, ensuring that it is in the conditions laid down.

CR 3.3 water circulation is verified, checking that it corresponds to what is established.

CR 3.4 is examined, the functioning of the system of control, regulation and control checking is located under the conditions laid down.

CR 3.5 use and basic maintenance information is produced and helps the customer, along with the relevant manuals.

4 RP: Perform operation manoeuvres in the system of distribution of water transport pipe networks and sanitation, control and regulation of circuits, systems and elements or accessories comply with established procedures and applicable regulations.

4.1 CR pressure, volume, flow, level, residual chlorine and other measures of variables are obtained and recorded, in his case, through remote control and remote control systems.

CR 4.2 obtained data are prepared, providing comprehensive information to help the management of networks, ensuring its operation through established logical operation programs.

CR 4.3 pumps are activated in hours energy suitable depending on the level, the regulation of entry and exit to deposits, setting ranges of alarms and other maneuvers of operation, previous knowledge of the parameters, selecting alternatives that minimize the potential negative consequences for the users and optimizing the operation in terms of security, time and cost.

4.4 CR entries and air outlets are examined, checking that they are operational before acting on the distribution system.

CR 4.5 vibrations, hit ariete, turbidity, direct discharges to waterways, the emanation of odors and other factors that may cause interference in the maneuvers of operation are taken into account, taking preliminary steps to avoid them.



Professional context: means of production: tools and measuring tools: thermometers, pressure gauges, flowmeters, measuring tape, circometer, compass thicknesses, level, scale ruler, gauge, electrical measuring equipment. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, equipment for detection of leaks, equipment and tools for cutting, filling and sealing. Groups of pressure, bilge pumps, water tanks, filling balls. Security equipments. Signalling material. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, Wells's record.



Products and results: facilities and distribution networks of water tested and in service. Facilities and sanitation networks tested and in service.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Pressure testing procedures. Tests required by regulations concerning documentation. Records of the installation data (pressure, volume, flow, level, residual chlorine and other measures). Parts of the work. Technical specifications. Catalogues. Service manuals, use. Safety instructions. Internal rules of work. Applicable regulations.



Unit 4 competition: Maintain networks of distribution of water and sanitation level: 2 code: UC0609_2 realizations professionals and completion criteria: RP 1: organize the work of maintenance of distribution networks of water and sanitation according to established procedures of intervention.

CR 1.1 maintenance and its sequence of intervention, actions are established from the interpretation of drawings and technical specifications of the equipment and installations, optimizing the process in terms of safety, method and time.

1.2 CR materials and other technical resources are selected depending on the maintenance work that will be performed.
CR 1.3 work area is prepared according to the own performance requirements and according to established procedures.

CR 1.4 coordination with those involved in the work is done according to criteria of efficacy and safety, ensuring less possible impairment as a consequence of the peacekeeping operation.

CR 1.5 information on the repair process is transmitted to the user or client focusing on aspects that apply to you.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the maintenance of sanitation and water distribution networks, to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for security in the maintenance of the installations.

CR 2.2 means of protection are selected, using as set out in the plan the company's security against risks arising from maintenance.

CR 2.3 areas of work under the responsibility of the worker, are kept in order and clean, avoiding accidents and minimizing risks.

CR 2.4 waste materials generated in the maintenance of water networks are treated or recycled according to the requirements and in line with environmental plans.

CR 2.5 emergencies are met following the Protocol, adapting it according to the case.

3 RP: Ensure the preventive maintenance of pipe networks and systems of supply and distribution of water and sanitation from plans, protocols of control and management and technical specifications, fulfilling established procedures and applicable regulations, to operate within the parameters set.

CR 3.1 State of cleaning, surface finish and tightness of tanks and load break cameras is checked with the rated frequency.

CR 3.2 piping, valves, suction cups, hydrant, hydrants and other elements of the supply network are reviewed, checking their status and, where appropriate, are cleaned and disinfected according to established procedures.

CR 3.3 methods of control night minimum flow rate, auscultation and acoustic correlation, sectorization is carried out, using teams of radiodetection, Geophones and other instruments used in leak detection.

CR 3.4 flows, nature of discharges, the presence of gas and general State of sanitation ventilation occur with the frequency stipulated, ensuring its adaptation to the regulations.

CR 3.5 pumping, non-return valves, slide valves, manholes, teams record wells and other components of the drainage system are reviewed, checking their State, by making the necessary adjustments and physical and chemical cleaning of those who need it according to established procedures and under the conditions of security.

CR 3.6 elements of access to the sewers are kept safe.

CR 3.7 the results of inspections and operations are included in the report, adding them to the databases to manage and improve the maintenance plan and for the training of staff.

CR 3.8 the equipment and tools used are examined, keeping them in a State of operation.

4 RP: Ensure the maintenance and amending in the networks and systems of supply and distribution of water and sanitation, establishing the process of performance, using manual instructions and drawings, to restore functional conditions with required quality and safety.

CR 4.1 possible faults are detected and analyzed valued its causes and choosing the system that guarantees less involvement of the supply or sanitation service.

CR 4.2 performance before the fault string is set, optimizing the process in terms of method and time, selecting equipment, tools, materials, useful and necessary auxiliary means, as well as guidelines in carrying out the maneuvers of operation derived and acting in line with other services, if they would be affected.

CR 4.3 information on the repair process is transmitted to the user or client focusing on aspects that apply to you.

CR 4.4 leaks in pipes and their joints and fittings are repaired by the techniques and elements appropriate to the material and type of repair.

CR 4.5 the damaged item is replaced, following the sequence of the process of disassembly and Assembly established, within the planned time and with the quality and safety required, checking its operation.

CR 4.6 the network functionality is reinstated in the shortest possible time, taking into account the quality and safety conditions, confirming it in all of its parameters.

CR 4.7 the parties and reports carried out repair is completed, adding them to the database to manage the design of the network, updating your maintenance plan.

4.8 CR the condition to gardens, condition to services in real estate and other damages or damages caused are reported for the processing of your remedy.

RP 5: Operations of repair the elements integrated into networks and supply and distribution of water and sanitation facilities, establishing the process of performance, using manual instructions and plans to restore functional conditions with required quality and safety.

CR 5.1 deteriorated elements analysed identifying damaged or damaged parts.

5.2 CR valves, pumps and other components of the network are disassembling, repairing, in his case, the damaged parts.

CR 5.3 functional tests of repaired components are carried out according to established procedures.

CR 5.4 the parties and reports of repair is completed, collaborating in the management of spare parts.



Professional context: means of production: support systems, equipment for movement of materials, tractel. Tools and measuring tools: thermometers, pressure gauges, flowmeters, measuring tape, circometer, compass thicknesses, level, scale ruler, gauge, electrical measuring equipment. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, equipment for detection of leaks, equipment and tools for cutting, filling and sealing. Groups of pressure, bilge pumps, water tanks, filling balls. Security equipments. Signalling material. Rehabilitation technologies. Cleaning and sanitation vehicles. Inspection systems camera TV. detection by such - sensors in continuous systems. Factors of exploitation by zoning. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, Wells's record.



Products and results: facilities and distribution networks of water and sanitation maintained and running. Components repaired and refurbished network.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Technical specifications. Catalogues. Book or manual of use and maintenance. Programs and maintenance procedures. Inspection reports. Book or certificate of maintenance. Parts and service reports. Parts of the work. Databases. Specific computer applications. Internal rules of work. Applicable regulations.



TRAINING module 1: layout of networks of distribution of water and sanitation level: 2 code: MF0606_2 associated with UC: rethink distribution networks of water and sanitation duration: 60 hours capabilities and evaluation criteria: C1: understand the functioning of water distribution networks, identifying characteristics and elements related to the Assembly.

CE1.1 describe the general hydraulic operation of a distribution network of water and its control systems, based on the corresponding plans.

CE1.2 list, describing them, features that they made the components that integrate water distribution networks.

CE1.3 describe the fundamental requirements of the regulations and rules applicable to such facilities.

C2: Understanding of sanitation networks, identifying characteristics and elements related to the Assembly.

CE2.1 describe the general hydraulic operation of a network of sanitation and its systems of control based on the corresponding plans.

CE2.2 enumerate, describing and explaining the function performing the various components that make up sanitation networks.

CE2.3 describe the fundamental requirements of the regulations and rules applicable to such facilities.

C3: Interpret distribution networks of water and sanitation projects to perform stakeout operations and other related installation.

CE3.1 analyze the documents that make up a project, technical report or a manual installation of a network of water and sanitation, distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.
CE3.2 represent principle diagrams, sketches and isometric diagrams of a network of distribution of water and sanitation and its components, facilitating installation.

CE3.3 interpret graphical information produced in systems of representation by specific software applications.

CE3.4 perform stakeout and marking the location of anchors, supports, ditches, layout of piping and other components of the network, on the basis of drawings and technical documentation.

CE3.5 describe the requirements of signage in the area of work according to the site.

CE3.6 set the sequence of intervention and nature of actions on reform of distribution networks of water and sanitation which incorporated new sections with other materials, from the respective projects or technical reports.

CE3.7 in a practical course of reconsideration of a distribution network for water and sanitation, based on drawings and technical documentation:-identify the components of the water distribution network, locating its location.

-Identify the components of the sewage network, locating its location.

-Specify the characteristics of each of the elements that compose them: pipes, pressure groups, bilge pumps, water tanks, filling balls, deposits, flowmeters, valves, suction cups, sinks, records, siphons and adjustment components.

-Reason the hydraulic operation of the system, describing the function, structure and composition of the different parts that make it up.

-Perform the operations of setting out and mark the location of the components.

-Perform the signaling of the working area.

-Relate the composition and characteristics of the network with the regulatory requirements that are applicable to it.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.7.

Other capabilities: demonstrate a good make professional.

Propose alternatives with the aim of improving results.

Responsible for the work that develops.

Interpret and execute work instructions.

Demonstrate flexibility to understand changes.

Respect the procedures and internal rules of the organization.



Contents: 1. water supply and sanitation integral water cycle. Phases.

Efficient management and water saving. Models of efficient management and techniques for the rational use of water.

Physics of fluids in water supply and sanitation networks. Hydrostatics and hydrodynamics. Loss of load.

Piezometric line. Driving speeds and impact. Water hammer arrestor. Air in pipes and evacuacion-admision systems.

Construction principles of distribution of water and sanitation networks.

Applicable regulations: basic facilities of water, municipal ordinances, regulation of safety standards.



2. water types and materials of supply networks and water supply installations. Classification.

Installation configuration. Parties and constituents.

Elements of control and electric drive in hydraulic systems.

Rush. Systems of small diameter. Systems in charge of large diameter.

Irrigation installations.

Fire-fighting facilities.

Pumps, valves, suction cups, elements of regulation.

Special types of valves: integrated, multivalvulida, altimetric, regulatory and other special types of gate valves and automatic.

Procedures and layout of facilities operations.



3 sanitation facilities types and materials of sanitation networks. Classification. Sewerage. Renovation of rainwater.

Evacuation systems.

Sewage networks.

Installation configuration. Parties and constituents.

Elements of control and electrical operation of sanitation facilities.

Hardware: pumps, valves, pipes, sumps, collectors, log wells, siphons and spillways.

Procedures and layout of facilities operations.



4 projects of water supply and sanitation concept and types of projects. Memory, plans, budget and specifications.

Levels of situation. Detail and assembly drawings. Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules.

Display and interpretation of scanned drawings. Basic operations with graphics files.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the reconsideration of distribution networks of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: mounting of networks of distribution of water and sanitation level: 2 code: MF0607_2 associated with UC: assemble networks of distribution of water and sanitation duration: 180 hours capabilities and evaluation criteria: C1: develop work plans for the installation of distribution networks of water and sanitation, according to the corresponding project and established work procedures.

CE1.1 describe the different techniques that are used in the Assembly of networking processes: fixing, stringing, anchorage, connection, flanged, welded, threaded.

CE1.2 identify the materials and tools used in the different Assembly processes of networks.

CE1.3 relate the human resources involved in different phases of Assembly of networks of distribution of water and sanitation.

CE1.4 describe the procedures of optimization of Assembly work on networks.

CE1.5 represent the schemes of work organization and time control in the Assembly of a distribution network of water and sanitation through diagrams and schedules appropriate to their level.

CE1.6 in a practical course of installation of a network of water and sanitation, set the sequence of installation drawings and technical documentation, optimizing the process in terms of safety, cost, method and time, within your level.

CE1.7 in one or more practical cases of installation of distribution networks of water and sanitation, from various sectors with pipes of different diameters and different elements:-select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

C2: The measures of prevention and security regarding the installation of distribution networks of water and sanitation contained in the security of the companies of the sector plans.

CE2.1 assess occupational risks present in the Assembly of distribution of water and sanitation networks.

CE2.2 propose preventive and corrective measures to the detected risks, including selection and use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements derived from the actions of installation of distribution networks of water and sanitation.

CE2.4 describe the requirements of work areas, and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations related to the installation of distribution networks of water and sanitation.

CE2.6 analyze the protocols of action possible emergencies arising during the Assembly of distribution of water and sanitation networks.

CE2.7 analyze the requirements for first aid and transfer of injured in different cases of accidents arising from the installation of distribution networks of water and sanitation.

C3: Carry out assembly operations of networks of distribution of water from the technical documentation, using the tools, equipment and materials established and acting under safety rules.

CE3.1 describe the methods and procedures to move equipment and materials, in conditions of safety, and analyse the criteria for its location.

CE3.2 describe criteria to control the execution of the excavation fits to the requirements of the Assembly.

CE3.3 place supports and anchorages respecting, in his case, the planned expansions.

CE3.4 operating the equipment and tools to prepare, shape and join pipes of different materials.
CE3.5 apply methods and techniques employed in the protection of tanks, pipes and accessories for the different materials used in networks of distribution of water and sanitation.

CE3.6 apply techniques of thermal insulation on pipes and fittings.

CE3.7 in one or more practical cases of installation of distribution networks of water from various sectors with pipes of different diameters and different elements:-prepare the work area in accordance with the requirements of the own work according to work procedures, determining the specific risks and their corrective measures.

-Browse, then locate the equipment and materials safely, according to the work to be done.

-Check the marking on the ground and the reconsideration of the network for the excavation, indicating the area of performance.

-Describe the criteria to control execution of the excavation suited to the requirements of the Assembly.

-Place the supports and anchorages established.

-Prepare the pipes, valves and other elements according to standard operating procedures.

-Tender and connect tubing, valves and other accessories.

-Assemble and implement protections against corrosion.

-Thermally insulated pipes and elements that require it to meet technical specifications and the applicable regulations.

-Leave the work environment in the conditions after operations.

-Generate report on performed work, anomalies and incidents.

CE3.8 in a practical course of installation of a network of distribution of water and supply, not fed by gravity, from plans and specifications:-place the supports and anchorages established.

-Prepare the pipes, valves and other elements according to standard operating procedures.

-Assemble and connect the pipes, valves and other accessories items using different techniques: tongue and Groove through sleeve, sealed, soldier, union encopada, flanged, screwed.

-Place and set bombs on the base, aligning them and leveling them.

-Connect the hydraulic pumps the corresponding circuit.

-Thermally insulated pipes and elements that require it.

-Generate report on performed work, anomalies and incidents.

C4: Carry out assembly operations of sewage from the technical documentation, using the tools, equipment and materials established and acting under safety rules.

CE4.1 in one or several practical cases of installation of sewage, from various sectors with pipes of different diameters and different elements:-prepare the work area in accordance with the requirements of the own work according to work procedures, determining the specific risks and their corrective measures.

-Browse and locate the equipment and materials safely, according to the work that must be performed.

-Check the marking on the ground and the layout of the installation for the excavation, indicating the area of performance.

-Describe the criteria to control execution of the excavation suited to the requirements of the Assembly.

-Place the supports and anchorages established.

-Prepare the pipes, manholes and other elements according to standard operating procedures.

-Tender and connect tubing, valve boxes and other accessories.

-Leave the work environment in the conditions after operations.

-Generate report on performed work, anomalies and incidents.

CE4.2 in a practical course of installation of distribution networks of water and sanitation, on a drive in sewage, from plans and specifications:-place the supports and anchorages established.

-Prepare the pipes, valves and other elements according to standard operating procedures.

-Assemble and connect the pipes, valves and other accessories items using different techniques.

-Place and set bombs on the base, aligning them and leveling them.

-Connect the hydraulic pumps the corresponding circuit.

-Thermally insulated pipes and elements that require it.

-Generate report on performed work, anomalies and incidents.

Skills whose acquisition must be completed in a real work environment: C1 with regard to CE1.6 and CE1.7; C3 on CE3.7 and CE3.8; C4 CE4.1 and CE4.2.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Interpret and execute work instructions.

Get used to the pace of work of the organization.



Contents: 1. Organization of networks of water and sanitation mounting specifications mounting.

Preparation of the mounting of the networks. Phases.

Organization of the installation of water and sanitation networks. Work plan.



2. civil works in the mounting of water networks and sanitation civil works: displacement and hoisting equipment and materials. Opening of ditches. Excavation. Dewatering. Signaling. Supports and anchorages.



3. mounting of water and sanitation materials used in pipe networks. Types of joints of pipes and fittings.

Welds, techniques and methods.

Thermal insulation systems.

Protection of pipes and fittings. Primers. Cathodic protection.

Deposits.

Supplies, tools and means employed in the Assembly. Techniques of use.

Mounting of pipes, valves and tanks.

Mounting of measuring devices and accessories.

Installation of pumps and pressure groups.

Installation of manholes and wells of registration.

Mounting of machines and equipment.

Techniques and Assembly, settlement, alignment and clamping operations.



4. quality in the installation of water and sanitation quality in Assembly. Technical requirements and quality control specifications. Quality control of materials used in the Assembly. Quality in Assembly operations.

Basic economic and strategic aspects of quality. Technical documentation of the quality processes. Procedures manual.



5. safety in the installation of water and sanitation security plans in the mechanical Assembly of water and sanitation.

Prevention of occupational hazards in the area of water and sanitation networks Assembly.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the installation of distribution networks of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: putting into service and operation of networks of distribution of water and sanitation level: 2 code: MF0608_2 associated with UC: placing in service and operation of distribution networks of water and sanitation duration: 60 hours capabilities and evaluation criteria: C1: perform checking prior to implementation in distribution networks of water and sanitation service.

CE1.1 describe the methods and techniques employed in the protection of pipes and fittings for the different materials used in the distribution of water and sanitation.

CE1.2 describe the procedures used to carry out tests of pressure and tightness, in conditions of safety.

CE1.3 describe the techniques of filling and compaction of ditches, allowing inspection of heads and gaskets, in conditions of safety.

CE1.4 relate the signalling requirements, depending on the networks, according to the applicable regulations.

CE1.5 analyze the process of withdrawal of surplus materials and recycling, according to the plans of environmental protection.

CE1.6 describe the requirements of cleaning and disinfection of the networks depending on the use of these.

CE1.7 in one or more practical cases of commissioning and operation of distribution networks of water and sanitation, from different materials:-check the realization of the protection of the network depending on the type of material.

-Testing of the mains pressure.

-Describe the criteria to control the realization of the filling, their signage and compaction.

-Clean and disinfect the network.
C2: The measures of prevention and security with respect to the start-up of distribution of water and sanitation networks contained in the security of the companies of the sector plans.

CE2.1 identify and evaluate occupational hazards arising from pressure and commissioning tests in distribution networks of water and sanitation service.

CE2.2 propose preventive and corrective measures to the detected risks, selecting and determining the use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements derived from the actions of implementation in distribution networks of water and sanitation service.

CE2.4 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations related to the start-up of distribution of water and sanitation networks, relating the safety instructions which must be added next to the teams.

CE2.6 analyze the protocols of action possible emergencies arising in the start-up of distribution of water and sanitation networks.

CE2.7 analyze the requirements for first aid and transfer of injured in different cases of accidents arising from testing pressure and putting in service of distribution of water and sanitation networks.

C3: Perform start-up operations in distribution networks of water and sanitation service, following established procedures and applicable regulations.

CE3.1 describe the sequence of operation and the procedures and techniques used in the start-up of distribution of water and sanitation networks.

CE3.2 describe the methods and techniques to check for leakage of the networks in operation, taking into account security conditions.

CE3.3 describe the methods and techniques used in the verification of the circulation of the water networks, taking into account security conditions.

CE3.4 analyze the procedures to verify the operation of systems of actuation and control networks, following the established procedures.

CE3.5 prepare the information that is delivered to the user of the installation by analyzing the corresponding technical manuals.

CE3.6 in one or more practical cases of commissioning and operation of water and sanitation networks mounted with different materials:-set the control elements.

-Make the implementation to installation service.

-Check the sealing of the networks.

-Check the operation of the pumps and pressure equipment.

-Check the safety, operation, regulation and control systems.

-Prepare the information to pass to the user of the installation, by analyzing the corresponding technical manuals.

C4: Perform maneuvers of operation in distribution of water and sanitation networks, following established procedures and applicable regulations.

CE4.1 point out items in a distribution network of water and sanitation that can be operated, manually or automatically, considering the consequences of his manipulation.

CE4.2 perform measurements of pressure, flow, and other measures of variables, using and interpreting different measuring instruments.

CE4.3 prepare and analyze data from the various measures in relation to the operation and control of networks, providing comprehensive information.

CE4.4 describe the procedures of measurement and control of pumps, according to criteria of optimization in terms of security, time and cost.

CE4.5 describe the procedures of control and regulation of entrance and exit to deposits.

CE4.6 relate the types of alarms and their usual programming ranges in the control of distribution of water and sanitation networks, according to criteria of optimization in terms of security, time and cost.

CE4.7 describe the influence of the inputs and outputs of air in the operation of the networks and the maneuvers of operation on them.

CE4.8 describe the influence of vibrations and water hammer in the functioning of networks and the maneuvers of operation on them.

CE4.9 describe the necessary measures to prevent the turbidity, direct discharges to waterways, the emanation of odors and other factors that may cause interference in operation manoeuvres.

CE4.10 in one or more practical cases of commissioning and operation of water and sanitation networks mounted with different materials:-perform the operations in the network service.

-Measurements of flow rate, pressure, volume, and other hydraulic quantities of various systems and equipment, relating the values obtained with the reference.

-Check the behavior of the automation of the network before consumption and the inmisions fluctuations.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C3 on CE3.6; C4 on CE4.10.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Interpret and execute work instructions.

Show some autonomy in the resolution of small contingencies related to its activity.

Demonstrate flexibility to understand changes.

Treat the customer with courtesy, respect and discretion.



Contents: 1. operations prior to commissioning of the protections of pipes and fittings check water networks.

Pressure tests.

Cleaning and disinfection of networks.

Filling of ditches. Compaction. Signaling. Materials and recycling. Replacement of flooring.



2 operation of water networks networks commissioning procedures.

Manual and automatic systems for operation in networks.

Trials of installations and equipment.

Procedures for performing cuts and restoration of a section of a network service.

Measurements of parameters. Procedures. Instruments. Telemetry and telecontrol.

Operation, adjustment, regulation and control of networks, reservoirs, pumps and valves.

Harmful factors and its treatment. Dilations. Vibrations. Water hammer arrestor. Turbidity. Smells.

Immissions and discharges.

Usual manoeuvres in the operation of a network of sanitation and water distribution.



3. Security in the commissioning of water safety plans in the commissioning of water networks.

Prevention of occupational hazards in the field of commissioning of water networks.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the commissioning and operation of distribution networks of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: maintenance of networks of distribution of water and sanitation level: 2 code: MF0609_2 associated with UC: maintain networks of distribution of water and sanitation duration: 150 hours capabilities and evaluation criteria: C1: analyze the overall functioning of the networks of water distribution and sanitation whereas the development of the maintenance plan.

CE1.1 describe the operation of a distribution network for water and sanitation from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 identify at a level of a network of water and sanitation, the elements that must be made from a specific program of maintenance preventive maintenance.

CE1.3 explain the consequences, for a given water, of the faults in their critical points.

CE1.4 describe the fundamental requirements of the regulations and rules applicable to the maintenance of such facilities.

CE1.5 in a practical course of maintaining a network of distribution of water from the planes, and corresponding technical instructions:-develop the overall program of actions for maintenance.

-Determine the types of steps.

-Determine the periodicity of operations.

-Determine the times for each intervention.

-To determine the technical and human resources involved in the operations.
C2: The measures of prevention and safety with respect to the maintenance of distribution networks of water and sanitation contained in the security of the companies of the sector plans.

CE2.1 identify and evaluate occupational hazards present in the maintenance of sanitation and water distribution networks.

CE2.2 propose preventive and corrective measures to the detected risks, selecting and determining the use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements arising from the activities of maintenance of sanitation and water distribution networks.

CE2.4 describe the requirements of work areas, and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.5 analyze the aspects of safety regulations related to the maintenance of sanitation and water distribution networks.

CE2.6 analyze the protocols of action possible emergencies arising during the performances of maintenance of sanitation and water distribution networks.

CE2.7 analyze the requirements for first aid and transfer of injured, considering different assumptions of accidents arising from the maintenance of sanitation and water distribution networks.

C3: Performing preventive maintenance of distribution networks of water and sanitation, based on an established plan.

CE3.1 provide the scope and complexity of the activity, determining the consequences for users of the lack of supply and organizing work to minimise these consequences.

The CE3.2 is managing, preparing and using materials, equipment and tools necessary to carry out the maintenance work.

CE3.3 reason the need for performing preventive maintenance on equipment and components of distribution networks for water and sanitation based on the established method.

CE3.4 describe the procedures of each of the operations of preventive maintenance that should be performed on components of networks and computers.

CE3.5 in a practical course of preventive maintenance of a network of water and sanitation with different elements and in operation, from maintenance plans:-identify the elements that preventive maintenance is required.

-Prepare the work area in accordance with the requirements of the own work according to work procedures, identifying specific occupational hazards and corrective measures.

-Perform the operations of cleaning, disinfection and neutralisation of odours.

-Use different methods in the detection of leakage and infiltration.

-Check the general condition of stands, protections and insulating material.

-Review and maintain operation equipment and tools used in maintenance.

-Fill in the performance report.

C4: Perform the corrective maintenance of distribution networks of water and sanitation, based on an established plan.

CE4.1 diagnose the common faults that may occur in the water and sanitation networks, determining the cause and its effects on the system.

CE4.2 describe the procedures of each of the operations of maintenance that should be performed on equipment and components of the distribution of water and sanitation networks.

CE4.3 describe the tools and ancillary equipment used in the corrective maintenance operations, reasoning his way of use and conservation.

CE4.4 in one or more practical cases of distribution networks of water and sanitation in various typical cases of defective operation, starting from a set plan:-identify the possible faults and their causes.

-Prepare the work area in accordance with the requirements of the own work according to work procedures, identifying specific occupational hazards and corrective measures.

-Describe the repair procedure, isolating the circuit or component if necessary.

-Replace the defective item.

-Start-up of the network, checking the functioning of the system.

-Review and maintain operation equipment and tools used in maintenance.

-Leave the work environment in the conditions after operations.

-Fill in the performance report.

C5: Perform repairs of equipment and components of distribution networks of water and sanitation, based on an established plan.

CE5.1 describe the parts that make up each element of the distribution network of water and sanitation, and its functions.

CE5.2 describe the techniques of repair of pumps, valves, pipes, and other components involved in distribution of water and sanitation facilities.

CE5.3 use gas and electric welding in repair of leaks in pipes, joints and fittings.

CE5.4 in one or more practical cases of maintenance of distribution networks of water and sanitation, in which takes place the repair of an element of the installation, starting from the corresponding technical documentation:-identify damaged parts of the element.

-Carry out the repair of the damaged item.

-Check its operation.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.5; C3 on CE3.5; C4 on CE4.4; C5 regarding CE5.4.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Show some autonomy in the resolution of small contingencies related to its activity.

Treat the customer with courtesy, respect and discretion.

Demonstrate flexibility to understand changes.

Get used to the pace of work of the organization.



Contents: 1. maintenance of networks of water supply and sanitation procedures and operations to take action.

Flushing and disinfection operations.

Programs of maintenance of networks.

Critical faults in networks.

With rules of application in the maintenance of networks.



2. preventive maintenance preventive maintenance schedule water networks.

Network maintenance operations. Equipment and tools.

Ditch as solution in preventative maintenance-free technology.

Different types of faults.

Detection of leakage and infiltration procedures.

Inspection and cleaning of networks, tanks, manholes, record wells and sewers. Procedures. Sulfides, bad smell. Corrosion. Erosion. Sedimentation. Measurements of physical parameters.



3 corrective maintenance of water networks diagnosis of faults in distribution and sanitation of water networks.

Methods for the repair of the various components of the network. Repair by welding. Repair charge. Ditch as solution in corrective maintenance-free technology. Operation with cutting polygons. Clamps repair by pressure, side sealing and joints of tube head.

Joints and parts multidiameter systems. Oblique rings.

Rehabilitation of pipeline systems: jacketed, liquid seals and other systems. Rehabilitation of collector systems.

Removal and replacement of pipes, valves, pumps and electrical components for easy connection.



4. safety in the maintenance of distribution networks of water and sanitation and sanitation safety plans in the maintenance of water distribution networks.

Prevention of occupational hazards in the area of the maintenance of water networks.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work. Operation in confined spaces. Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the maintenance of distribution networks of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex III professional qualifications: installation and maintenance of networks of professional family gas: energy and water level: 2 code: ENA192_2 general competition mounting, commissioning, operation and maintenance of gas with required quality and safety networks and in compliance with the applicable rules.



Competition UC0610_2 units: rethink gas UC0611_2 networks: assemble and maintain gas networks in polyethylene
UC0612_2: Assemble and maintain networks of gas in steel UC0613_2: commissioning and operate networks of gas UC0614_2: preventing risks in facilities of gas environment professional scope professional develops his professional activity in the area of production dedicated to the installation and maintenance of gas networks, entities of public or private nature, small, medium or large-sized companies both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the energy sector, sub-sector of production and distribution of electricity, gas and water, in productive activities in which there are Assembly, exploitation and maintenance of gas installations and networks.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Assemblers of polyethylene (PE) pipes gas networks editors fitters, welders of steel pipe operators, maintainers of gas training associate (420 hours) training modules MF0610_2 networks: reconsideration of gas (60 hours) MF0611_2 networks: installation and maintenance of gas in polyethylene (120 hours) MF0612_2 networks: installation and maintenance of gas networks (120 hours) MF0613_2 steel tube : Commissioning and operation of networks of gas (60 hours) MF0614_2: safety facilities of gas (60 hours) unit of competition 1: Rethinking networks of GAS level: 2 code: UC0610_2 realizations professionals and completion criteria: RP 1: rethink gas networks in polyethylene from a project or technical report for Assembly.

CR 1.1 installation type is identified from the plans and technical specifications corresponding, distinguishing their energy and functional characteristics.

CR 1.2 components of Assembly or installation, as well as its functional features and specifications, identifies and locates its location from the drawings and technical specifications.

CR 1.3 possible dysfunction between the design of the installation and the own site, determines, by adopting the technical and organizational decisions that apply.

1.4 CR locations and characteristics of anchorage, supports and connections of the different components and construction elements, are previously determined to be assembled.

CR 1.5 complementary schemes necessary to redesign and installation of polyethylene gas networks, are carried out in those cases that are required.

CR 1.6 the tubes and other elements of the network path is marked on the ground, from the Setup project and taking into account the characteristics of the place, making the possible affected services.

CR 1.7 work area affected is indicated according to the regulatory requirements.

2 RP: Rethinking gas networks in steel from a project or technical report for Assembly.

CR 2.1 installation type is identified from the plans and technical specifications corresponding, distinguishing their energy and functional characteristics.

CR 2.2 components of Assembly or installation, as well as its functional features and specifications, identifies and locates its location from the drawings and technical specifications.

CR 2.3 possible dysfunction between the design of the installation and the own site, determines, by adopting the technical and organizational decisions that apply.

CR 2.4 locations and characteristics of anchorage, supports and connections of the different components and construction elements, are previously determined to be assembled.

CR 2.5 necessary complementary schemes for the layout and Assembly of steel gas networks, are carried out in those cases that are required.

CR 2.6 the layout of tubes and other elements of the network, is marked on the ground from the Setup project and taking into account the characteristics of the place, making the possible affected services.

CR 2.7 affected work area is indicated according to the regulatory requirements.

3 RP: Rethink actions for modification and improvement in gas from a project or technical networks to carry them out.

CR 3.1 the type of installation to reform is identified from the plans and technical specifications corresponding, distinguishing their energy and functional characteristics.

CR 3.2 components of the installation, as well as its functional features and specifications, identifies and locates its location from the drawings and technical specifications.

CR 3.3 the performance of reform or modification, and the intervention sequence, sets from the interpretation of drawings and technical specifications of projects of modification of networks, equipment and gas installations, optimizing the process in terms of safety, method and time.

CR 3.4 complementary schemes for the layout and Assembly of the reform of gas networks are carried out where required.

CR 3.5 pipes, components, and accessories to improve or add in gas networks, are located, re-evaluate and marked on the ground from the project of reform and taking into account the characteristics of the place, making the possible affected services.

CR 3.6 work area affected by reform is indicated according to the regulatory requirements.



Professional context: means of production: drawing tools. Personal computer. Software. Marking tools. Picas, marking material. Security equipments.



Products and results: re-designed polyethylene gas network facilities. Re-designed steel gas network facilities. Changes to order gas networks.



Used or generated information: projects, plans set and cutting; Isometric; schemes and diagrams of principle; list of parts and components; mounting, parts of work programmes; technical specifications; catalogues; service manuals and use; instructions for installation and operation; complementary diagrams for the reconsideration.



Unit 2 competition: Assemble and maintain GAS networks in polyethylene level: 2 code: UC0611_2 realizations professionals and completion criteria: RP 1: organize the work of installation and maintenance, according to the corresponding project, for the installation of gas in polyethylene pipe networks.

CR 1.1 Assembly and maintenance sequence is established from drawings and technical documentation, optimizing the process in terms of safety, method and time.

1.2 CR materials, tools, and other technical resources are selected according to the type of work.

CR 1.3 receipt of components is done inspecting and evaluating the State of the same, determining their adequacy to the technical requirements.

CR 1.4 work area is prepared in accordance with the requirements of the work itself and according to the established work procedures.

CR 1.5 the coordination with the different people involved in the work is performed according to criteria of efficacy and safety.

2 RP: Connecting pipes, accessories and elements of control and regulation of the circuits from drawings, standards and technical specifications, to assemble networks of material of polyethylene gas pipe, complying with the regulated requirements, in terms of quality and security.

2.1 CR materials and equipment move and placed with the means of transport and lifting that prevent the deterioration thereof.

CR 2.2 polyethylene tube is aligned in the ditch provided according to project and taking into account the characteristics of the place.

CR 2.3 brackets and anchor points of the tubes are placed according to the specifications of the project, allowing the planned expansion of network.

CR 2.4 laying of polyethylene tubes is done with established devices to ensure their functionality.

CR 2.5 types and characteristics of equipment and assembled elements occur ensuring that they will resist the pressure and working temperature and which respond to the function they have to perform.

CR 2.6 polyethylene tubes are connected according to the techniques and procedures.

CR 2.7 Assembly of elements is done using figures established «save obstacles».

2.8 CR assembled elements and connections of tubes are protected from stress or mechanical stress, allowing the planned expansion and isolating them from vibrations.

CR 2.9 the location and position of valves, control elements and accessories are installed allowing accessibility for handling and maintenance in safe conditions.

CR 2.10 detectors elements of the variables of the system, are mounted according to the technical specifications to allow the indication of the measured magnitude without disturbance.

CR 2.11 protections and the thermal insulation of networks and elements, where appropriate, are carried out according to the established technical requirements.
3 RP: Performing the corrective maintenance on polyethylene gas networks, establishing the process of performance, using manuals of instructions and plans to restore functional conditions according to established procedures of quality and safety.

CR 3.1 different faults are detected, analyzed and their causes are valued.

CR 3.2 performance before the fault string is set by selecting equipment, tools, materials, supplies and auxiliary means, optimizing the process in terms of method and time, and acting in coordination with other services, if they would be affected.

CR 3.3 the repair process information is transmitted to the user or client focusing on aspects that affect you.

CR 3.4 the damaged item is replaced in the sequence of disassembly and Assembly established process, and within the planned time.

CR 3.5 deteriorated elements discussed, identifying their damaged parts.

3.6 CR the damaged item is repaired and checked its operation, depending on the level of the raised fault.

3.7 CR replacement or handling of tubes and accessories, in other materials, runs through procedures that compatible with polyethylene integration.

CR 3.8 the network functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 3.9 the parts and repair reports were completed and are added to the databases to manage and bring improvements to the maintenance plan.



Professional context: means of production: shoring systems, equipment for movement of materials, useful for lifting scaffolding; hoists.

Equipment and tools for measurement and control of tubes. Hand tools. Welding and electrofusion equipment. Equipment for detection of leaks, chispometros, control of pores, equipment and tools for clamping, cutting, filling and sealing. Security equipments. Signalling material. The plant components: pipes and fittings of polyethylene (PE). Tubes, other pipes and accessories in other material.



Products and results: installation and maintenance of gas in polyethylene tubes organized networks. Polyethylene gas networks mounted installations. Polyethylene gas networks repaired.



Used or generated information: projects, plans set and cutting; Isometric; schemes and diagrams of principle; list of parts and components; mounting, parts of work programmes; technical specifications; catalogues; service manuals and use; instructions for installation and operation; data bases; computer programs; parts and repair reports; internal labour standards; applicable regulations of safety and gas distribution networks.



UNIT of competency 3: Assemble and maintain networks of GAS steel level: 2 code: UC0612_2 realizations professionals and completion criteria: RP 1: organize the work of installation and maintenance, according to the corresponding project, for the installation of gas in steel pipe networks.

CR 1.1 Assembly and maintenance sequence is established from drawings and technical documentation, optimizing the process in terms of safety, method and time.

1.2 CR materials, tools, and other technical resources are selected according to the type of work.

CR 1.3 receipt of components is done inspecting and evaluating the State of the same, determining their adequacy to the technical requirements.

CR 1.4 work area is prepared in accordance with the requirements of the work itself and according to the established work procedures.

CR 1.5 the coordination with the different people involved in the work is performed according to criteria of efficacy and safety.

2 RP: Connecting pipes, accessories and elements of control and regulation of the circuits from drawings, standards and technical specifications, to assemble networks of gas with steel material pipe, complying with the regulated requirements, in terms of quality and security.

2.1 CR materials and equipment move and placed with the means of transport and lifting that prevent the deterioration thereof.

CR 2.2 steel tube is aligned in the ditch planned according to the project and taking into account the characteristics of the place.

CR 2.3 brackets and anchor points of the tubes are placed according to the specifications of the project, allowing the planned expansion of network.

CR 2.4 laying of steel tubes is done with established devices to ensure their functionality.

CR 2.5 steel tubes are connected according to the techniques and procedures.

CR 2.6 elements Assembly is performed using figures established «save obstacles».

CR 2.7 types and characteristics of equipment and assembled elements occur ensuring that they will resist the pressure and working temperature and which respond to the function they have to perform.

2.8 CR assembled elements and connections of tubes are protected from stress or mechanical stress, allowing the planned expansion and isolating them from vibrations.

CR 2.9 the location and position of valves, control elements and accessories are installed allowing accessibility for handling and maintenance in safe conditions.

CR 2.10 detectors elements of the variables of the system, are mounted according to the technical specifications to allow the indication of the measured magnitude without disturbance.

CR 2.11 protections and the thermal insulation of networks and elements, where appropriate, are carried out according to the established technical requirements.

3 RP: Perform corrective maintenance operations in steel gas networks, establishing the process of performance, using manual instructions and drawings, to restore functional conditions according to established procedures of quality and safety.

CR 3.1 different faults are detected, analyzed and their causes are valued.

CR 3.2 performance before the fault string is set by selecting equipment, tools, materials, supplies and auxiliary means, optimizing the process with regard to method and time, and acting in coordination with other services, if they would be affected.

CR 3.3 the repair process information is transmitted to the user or client focusing on aspects that affect you.

CR 3.4 broken element is replaced, following the sequence of disassembly and Assembly established process, and within the planned time.

CR 3.5 deteriorated elements discussed, identifying their damaged parts.

3.6 CR the damaged item is repaired and checked its operation, depending on the level of the raised fault.

CR 3.7 network functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 3.8 the parts and repair reports were completed and are added to the databases to manage and bring improvements to the maintenance plan.



Professional context: means of production: shoring systems, equipment for movement of materials, useful for lifting scaffolding; hoists.

Equipment and tools for measurement and control of tubes. Hand tools. Welding and electrofusion equipment. Equipment for detection of leaks, chispometros, control of pores, equipment and tools for clamping, cutting, filling and sealing. Security equipments. Signalling material. The plant components: pipes and fittings of steel. Tubes, other pipes and accessories in other material.



Products and results: installation and maintenance of gas in steel tubes organized networks. Mounted steel gas network facilities. Repaired steel gas networks.



Used or generated information: projects, plans set and cutting; Isometric; schemes and diagrams of principle; list of parts and components; mounting, parts of work programmes; technical specifications; catalogues; service manuals and use; instructions for installation and operation; data bases; computer programs; parts and repair reports; internal labour standards; applicable regulations of safety and gas distribution networks.



Unit 4 competition: Commissioning and operate networks of GAS level: 2 code: UC0613_2 realizations professionals and completion criteria: RP 1: operations previous for putting into service of gas networks, based on plans and specifications, complying with the applicable rules.

The inerting 1.1 CR and purged of the network is carried out according to established guidelines and the applicable regulations.

CR 1.2 circuits pressure tests are performed for each sector network, complying with the applicable rules.

CR 1.3 functional tests of keys, valves, regulators and other equipment, are conducted according to procedures of the company comply with the applicable rules.

CR 1.4 final filling, placement of signal tape and compaction, checks is done according to the technical specifications and applicable regulations.

1.5 CR surplus materials are removed leaving the area affected by mounting on the conditions laid down in the applicable environmental legislation.

CR 1.6 documentation to the result of the tests required in the commissioning is carried out according to the rules.
RP 2: Perform the operations of purged and 'putting in gas' gas in polyethylene network, meeting the standards of quality established to start the service.

2.1 CR pressure and temperature are obtained and checks than those laid down.

CR 2.2 «gas implementation"of the network is carried out according to established guidelines and the applicable regulations.

CR 2.3 the verification of the odorization of network testing following the established procedures.

CR 2.4 report anomalies and incidents produced is performed, to incorporate information about the current state of the network in the book of incidents.

3 RP: Perform basic maneuvers in the system of distribution of accessories and elements or systems of control and regulation of the circuits to operate networks of gas, complying with the applicable rules.

3.1 CR rush, branches and regulating cabinets that are indicated are located from drawings, documentation or instructions and proceed to his conviction and seal.

3.2 CR pressure, flow, temperature and other variables are obtained and recorded, using where appropriate systems of remote control and remote control.

CR 3.3 settings on the station affected by the commissioning, measurement and regulation is carried out according to statutory procedures.



Professional context: means of production: equipment and tools for measurement and control of tubes. Hand tools. Union and welding equipment. Equipment for detection of leaks, chispometros, control of pores, equipment and cutting tools, seal & seal. Security equipments. Signalling material. The plant components: pipes, other pipes and accessories.



Products and results: installations of gas networks tested and put into service. Cancelled and sealed gas network facilities.



Used or generated information: projects, plans set and cutting; Isometric; schemes and diagrams of principle; list of parts and components; mounting, parts of work programmes; technical specifications; catalogues; service manuals and use; instructions for installation and operation; data bases; computer programs; Documentation of commissioning tests; Report anomalies and incidents; internal labour standards; applicable regulations of safety and gas distribution networks.



Unit 5 competition: Preventing risks in facilities of GAS level: 2 code: UC0614_2 realizations professionals and completion criteria: RP 1: assessment of risks identified in the Assembly and maintenance of gas networks to ensure safety, communicating them, where appropriate, to the person responsible for the security plan in the Assembly and maintenance of the network.

1.1 CR occupational hazards in transport processes, loading and unloading, lifting and handling of pipes and materials, are identified and evaluated.

CR 1.2 occupational hazards in work in trenches processes are identified and evaluated.

1.3 CR occupational risks in the process of machining, forming and welding of pipes and fittings are identified and evaluated.

CR 1.4 occupational hazards in work load processes are identified and evaluated.

CR 1.5 occupational hazards in pressure tests, commissioning and operation of networks are identified and evaluated.

CR 1.6 environmental risks from leaks of gas, combustion, and waste materials are identified and evaluated.

2 RP: Follow the plan of enterprise security, during installation and maintenance, in order to prevent accidents and minimize risks.

CR 2.1 protection of slopes, the structural and other means of protection and additional measures against risks arising from the Assembly, are selected and used to prevent accidents and minimize the risk according to the project.

CR 2.2 personal protective equipment are selected, used and maintained according to the manufacturer's instructions.

CR 2.3 fire protection equipment are checked and maintained permanently operational.

CR 2.4 work of their responsibility areas are kept in order and clean.

2.5 CR in any situations of leakages or spillages are informed and apply the procedures most advisable and provided for in the security plan.

CR 2.6 treatment and recycling of waste materials generated in installations, requirements are applied in line with the environmental plans.

3 RP: Perform maneuvers of installation and maintenance of gas networks preventing and controlling the risks of explosion and poisoning to ensure safety.

CR 3.1 management tools and engines, risks of explosion are prevented and controlled in proceedings in gas installations.

3.2 CR risks of deflagration of machining, forming processes and welding of pipes and fittings, are prevented and control the operations of installation and maintenance of gas installations.

CR 3.3 poisoning risks derived from the performances in gas installations, prevent and control.

4 RP: Acting in emergencies quickly, efficiently and safely, to control the situation.

CR 4.1 the rugged protection and isolation of the cause which has caused the accident occurs immediately.

CR 4.2 emergency is valued according to the procedures defined in the specific safety regulations.

CR 4.3 emergency relief request is carried out as established in the security plan and laws, guaranteeing, in any case, the speed and efficiency of it.

CR 4.4 first aid are provided in accordance with the sanitary recommendations prescribed in each case.



Professional context: means of production: safety equipment. Signalling material. The plant components: pipes, other pipes and accessories.



Products and results: safe gas network for people, the environment and equipment installations. Risks in the installation and maintenance of gas networks identified and evaluated. Corrective measures taken. Controlled risks of explosion and poisoning. Resolved emergency.



Used or generated information: applicable legislation on labour and environmental risks. Enterprise security plan.



TRAINING module 1: layout of networks of GAS level: 2 code: MF0610_2 associated with UC: rethink gas duration networks: 60 hours capabilities and evaluation criteria: C1: analyze the operation of gas networks to determine their characteristics and elements related to the same Assembly.

CE1.1 describe the general operation of a distribution network of gas and their systems of control based on the corresponding plans.

CE1.2 list, describe the function making the components that integrate gas distribution networks.

CE1.3 describe the fundamental requirements of the regulations and standards applicable to such facilities.

C2: Interpret projects of gas for the reconsideration of the same networks.

CE2.1 analyze the different documents that make up a project, technical report, or a manual for Assembly of gas networks distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE2.2 represent principle diagrams, sketches and isometric diagrams of a network of distribution of gas and its components for Assembly.

CE2.3 interpret graphical information produced in representation by means of computer systems by performing basic operations of copying or modification of data, with standardized procedures pertaining to specific programs design and representation of gas networks.

CE2.4 rethink marking the location of anchors, supports, ditches, drawn tubes and other components of networks on the basis of drawings and technical documentation.

CE2.5 describe the requirements of signage in the area of work according to the site.

CE2.6 in a practical course of reconsideration of a gas network characterized by the planes and the corresponding technical documentation:-identify the different components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose it: tubes, flow meters, valves, control elements and other accessories.

-Reason the operation of the system, describing the function, structure and composition of the different parts that make it up.

-Perform the operations of setting out marking the location of the components.

-Perform the signaling of the working area.

-Relate the composition and characteristics of the system with the regulatory requirements that are applicable to it.

C3: Interpret modification and improvement projects for the reconsideration of gas networks.

CE3.1 analyze the documents that make up a project or technical modification or improvement of gas networks memory distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE3.2 differentiate installation components to replace or modify reused components performing their signage or labelling.

CE3.3 rethink marking the relocation of anchors, supports, ditches, drawn tubes and other components of the network to change on the basis of drawings and technical documentation.
CE3.4 describe the requirements of signage in the area of work according to the site.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.6.

Other capabilities: demonstrate a good make professional.

Propose alternatives with the aim of improving results.

Responsible for the work that develops.

Demonstrate flexibility to understand changes.

Get used to the pace of work of the organization.

Propose alternatives with the aim of improving results.



Contents: 1. Gas gas as energy source. Natural gas. Liquefied petroleum (LPG).

Characteristics of gas: physical and chemical properties, calorific value, interchangeability of gases and combustion process. Quantities and units of measurement.



2. gas networks gas installations. Gas pipelines. Reception facilities.

Classification. Installation configuration. Parties and constituents.

Applicable regulations.



3 projects of gas concept and types of projects. Memory, plans, budget and specifications.

Levels of situation. Detail and assembly drawings. Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules.

Procedures and layout of facilities operations.

Computer aided design and representation. Assisted design programs. Display and interpretation of scanned drawings. Basic operations with graphics files.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the reconsideration of gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: installation and maintenance of networks of GAS in polyethylene level: 2 code: MF0611_2 associated with UC: assemble and maintain gas networks in polyethylene duration: 120 hours capabilities and evaluation criteria: C1: develop work plans for the mounting of gas networks with polyethylene, according to the corresponding project and established work procedures.

CE1.1 describe the techniques to be used in the process of Assembly of gas networks with polyethylene.

CE1.2 identify tools and materials to use in different processes of assembling networks of gas.

CE1.3 relate the human resources involved in the stages of the Assembly of gas networks.

CE1.4 describe the procedures of optimization of Assembly work on polyethylene gas networks.

CE1.5 represent the schemes of work organization and time control in the installation of a network of distribution of gas by means of diagrams and schedules appropriate to their level.

CE1.6 in a so-called practical Assembly of a gas network, properly characterized, to establish the sequence of installation drawings and technical documentation, optimizing the process in terms of safety, cost, method and time.

CE1.7 in one or more practical cases of installation of polyethylene gas networks, containing various sectors with tubes of different diameters and different elements:-select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

C2: Assemble networks of gas with polyethylene (PE) from technical documentation, applying standard operating procedures and the corresponding regulations, using tools, equipment and materials, and acting under safety rules.

CE2.1 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.2 describe the methods and procedures to move equipment and materials safely and analyse the criteria for its location.

CE2.3 describe the criteria to control the execution of excavation fits to the requirements of the Assembly.

CE2.4 position supports and anchorages maintaining the planned expansions.

CE2.5 operating the equipment and tools to prepare, shaping and joining of polyethylene pipe and fittings.

CE2.6 apply methods and techniques employed in the protection of pipes and fittings used in polyethylene gas networks.

CE2.7 apply techniques of thermal insulation on pipes and fittings.

CE2.8 in one or more practical cases of installation of a network of gas containing various sectors with pipes of different diameters and different elements:-prepare the work area according to established working procedures and work requirements, determining the specific risks and their corrective measures.

-Move equipment and materials, in conditions of security, placing them in the best place to work for.

-Check the marking on the ground and the layout of the installation for the excavation, indicating the area of performance.

-Describe the criteria to control execution of the excavation suited to the requirements of the Assembly.

-Place the brackets and appropriate anchors.

-Prepare tubes, valves and other elements according to standard operating procedures.

-Tender and connect tubing, valves and other accessories.

-Assembly by applying protections against corrosion.

-Thermally insulated tubing and requiring it to meet specifications and applicable regulations.

-Leave the working environment conditions after the Assembly operations.

-Generate report on performed work, anomalies and incidents.

C3: Performing corrective maintenance of equipment and components of polyethylene (PE) gas networks.

CE3.1 diagnose faults occurring in polyethylene gas networks, determining the cause of them.

CE3.2 describe procedures for corrective maintenance that should be performed on equipment and components of polyethylene gas networks.

CE3.3 describe the tools and ancillary equipment used in the corrective maintenance operations, reasoning the use and conservation of the same way.

CE3.4 on one or several practical cases of installation of a network of gas distribution of polyethylene in typical cases of malfunction:-identify the possible faults and their causes.

-Describe the repair procedure.

-Repair faults in tubes, equipment and components.

-Check the functioning of the system.

-Check and keep in operation the own equipment and tools used in maintenance.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C2 regarding CE2.8; C3 on CE3.4.

Other capabilities: demonstrate a good make professional.

Responsible for the work that develops.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Maintaining an assertive attitude, empathic and conciliatory with others; showing cordiality and kindness in the deal.

Interpret and execute work instructions.

Adapt to the Organization, to its organisational and technological changes; as well as to new contexts or situations.



Contents: 1. networks of gas in polyethylene (PE) plastic materials. Thermoplastic. Thermosets. Elastomers. Polyethylene (PE). Types, structure, characteristics and yield point.

The poly-pipe installation configuration. Parties and constituents. Functional analysis. Rush. Applicable regulations.

Occupational hazards in the Assembly and maintenance of polyethylene gas networks.



2. mounting of gas in polyethylene (PE) networks methodological specifications for system installation. Procedures and operations preparation and layout of the facilities. Assembly steps. Organization.

Civil works: trenching, placement of tubes, breakage and replacement of flooring, building materials. Identification and selection equipment and necessary elements for the installation from the installation drawing. Put in pipe ditch. Supplies, tools and means employed in the Assembly. Techniques of use. Installation of new sections. Other materials used in tubes.

Types of joints of pipes and fittings in polyethylene and transition to other material.
Welds, techniques and methods. Butt welding. Electrofusion welding. Grips. Marking of pipes and fittings. Identification of welds.

Mounting of machines and equipment. Techniques and Assembly, settlement, alignment and clamping operations.

Mounting of valves, siphons, pods, measuring devices and accessories.



3 corrective maintenance of networks of gas in polyethylene (PE) diagnosis of faults in gas networks.

Methods for the repair of the various components of the network.

Entubamientos. Removal and replacement of pipes, valves and fittings. Performances in charge.



4. quality in the Assembly and maintenance of networks of gas in polyethylene (PE) technical requirements and quality control specifications. Quality control of polyethylene and other materials used in the installation and maintenance of gas networks. Quality in Assembly operations. Basic economic and strategic aspects of quality. Technical documentation of the quality processes. Procedures manual.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the installation and maintenance of gas networks in polyethylene, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: installation and maintenance of networks of GAS in steel level: 2 code: MF0612_2 associated with UC: assemble and maintain networks of gas steel duration: 120 hours capabilities and evaluation criteria: C1: develop work plans for the mounting of gas networks with steel, according to the corresponding project and established work procedures.

CE1.1 describe the techniques and tools used in the process of Assembly of gas networks with steel.

CE1.2 identify tools and materials to use in different processes of assembling networks of gas.

CE1.3 relate the human resources involved in the stages of the Assembly of gas networks.

CE1.4 describe the procedures of optimization of Assembly work on steel gas networks.

CE1.5 represent the schemes of work organization and time control in the installation of a network of distribution of gas by means of diagrams and schedules appropriate to their level.

CE1.6 in a practical course of Assembly of a gas network set the sequence of installation drawings and technical documentation, optimizing the process in terms of safety, cost, method and time.

CE1.7 in one or more practical cases of Assembly of gas networks, containing various sectors with tubes of different diameters and different elements:-select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

C2: Mount gas networks with steel from the technical documentation, applying standard operating procedures and the corresponding regulations, using tools, equipment and materials and acting under safety rules.

CE2.1 describe the requirements of work areas and procedures for the preparation, by determining the specific risks and their corrective measures.

CE2.2 describe the methods and procedures to move equipment and materials safely and analyse the criteria for its location.

CE2.3 describe the criteria to control the execution of excavation fits to the requirements of the Assembly.

CE2.4 operating the equipment and tools for preparing, shaping and joining of steel pipe and fittings.

CE2.5 position supports and anchorages maintaining the planned expansions.

CE2.6 apply methods and techniques employed in the protection of pipes and fittings used in gas with steel nets.

CE2.7 apply techniques of thermal insulation on pipes and fittings.

CE2.8 in one or more practical cases of installation of a network of gas containing various sectors with tubes of different diameters and different elements:-prepare the work area according to established working procedures and work requirements, determining the specific risks and their corrective measures.

-Move equipment and materials, safely placing them in the best place to work for.

-Check the marking on the ground and the layout of the installation for the excavation, indicating the area of performance.

-Describe the criteria to control execution of the excavation suited to the requirements of the Assembly.

-Prepare tubes, valves and other elements according to standard operating procedures.

-Place the brackets and appropriate anchors.

-Tender and connect tubing, valves and other accessories.

-Leave the working environment conditions after the Assembly operations.

-Generate report on performed work, anomalies and incidents.

C3: Performing corrective maintenance of equipment and components of steel gas networks.

CE3.1 diagnose faults occurring in steel gas networks, determining the cause of them.

CE3.2 describe procedures for corrective maintenance that should be performed on equipment and components of steel gas networks.

CE3.3 describe the tools and ancillary equipment used in the corrective maintenance operations, reasoning the use and conservation of the same way.

CE3.4 starting from one or several case studies of a steel gas distribution network in typical cases of malfunction:-identify the possible faults and their causes.

-Describe the repair procedure.

-Repair faults.

-Check the functioning of the system.

-Check and keep in operation the own equipment and tools used in maintenance.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C2 regarding CE2.8; C3 on CE3.4.

Other capabilities: demonstrate a good make professional.

Responsible for the work that develops.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Maintaining an assertive attitude, empathic and conciliatory with others; showing cordiality and kindness in the deal.

Interpret and execute work instructions.

Adapt to the Organization, to its organisational and technological changes; as well as to new contexts or situations.



Contents: 1. gas networks in steel installation of gas in steel tube configuration. Parties and constituents. Functional analysis. Rush.

Applicable regulations.

Occupational hazards in the Assembly and maintenance of networks of gas in steel.



2. methodology of the mounting of gas steel methodological specifications for system installation networks.

Procedures and operations preparation and layout of the facilities.

Assembly steps. Organization.



3. mounting of gas steel civil engineering networks: trenching, placement of tubes, breakage and replacement of flooring, building materials.

Identification and selection equipment and necessary elements for the installation from the installation drawing. Put in pipe ditch. Supplies, tools and means employed in the Assembly. Techniques of use. Installation of new sections.

Types of joints of pipes and fittings in steel. Welds, techniques and methods. Butt welding. Corrosion. Protections. Mounting of machines and equipment. Techniques and Assembly, settlement, alignment and clamping operations.

Mounting of valves, measuring instruments and accessories.



4. corrective maintenance of gas networks in steel troubleshooting in networks of gas in steel.

Methods for the repair of the various components of the network.

Removal and replacement of pipes, valves and fittings. Performances in charge.



5. quality in the installation and maintenance of gas networks in steel technical requisites and quality control. Quality control of steel and other materials used in the installation and maintenance of gas networks. Quality in Assembly operations. Basic economic and strategic aspects of quality. Technical documentation of the quality processes. Procedures manual.



Parameters of the training context: spaces and facilities:
Spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory or singular space, training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the installation and maintenance of gas networks in steel, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: putting into service and operation of networks of GAS level: 2 code: MF0613_2 associated with UC: commissioning and operate networks of gas duration: 60 hours capabilities and evaluation criteria: C1: developing gas networks service prior to starting test operations.

CE1.1 describe the methods and techniques employed in the protection of pipes and fittings for the materials used in gas installations.

CE1.2 describe the methods and techniques used for the inerting and purged of the networks.

CE1.3 analyze the procedures used to carry out tests of pressure and sealing in safety and complying with the applicable regulations.

CE1.4 describe the techniques of filling and compaction of ditches.

CE1.5 relate the requirements of signaling networks.

CE1.6 analyze the process of withdrawal of surplus materials and recycling according to the plans of environmental protection.

CE1.7 describe the requirements of cleaning and lubrication of the networks and their components.

CE1.8 in one or more practical cases of operation of networks of gas with different materials:-check the realization of the protection of the network depending on the type of material.

-Perform inerting and purge operations.

-Testing of the mains pressure.

-Check the general status and operation of the components.

-Describe the criteria to control the realization of the filling, their signage and compaction.

C2: Developing gas networks service operations.

CE2.1 describe the sequence of operations and procedures in facilities «sunset in gas».

CE2.2 describe techniques of gas odorization and its measurement and control procedures.

CE2.3 complete parts and reports of commissioning of gas networks.

CE2.4 relate to deliver information to the user of the installation by analyzing the relevant technical manuals.

CE2.5 in one or more practical cases of operation of networks of gas with different materials:-measurements of pressure and temperature at different points to be made.

-Sequencing operations for gas «start».

-Check the degree of odorization of gas.

-Complete documentation of commissioning.

C3: Perform maneuvers of operation on gas networks.

CE3.1 measurements of pressure and temperature of the networks and relate the critical values for your service implementation.

CE3.2 condemnation of rush operations, branches and seal components and networks.

CE3.3 describe the procedures of adjustment and control of stations or regulation and custom cabinets.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.8; C2 with respect to CE2.5.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Interpret and execute work instructions.

Respect the procedures and internal rules of the organization.

Demonstrate flexibility to understand changes.

Propose alternatives with the aim of improving results.



Contents: 1. operations prior to the commissioning of protections of pipes and fittings gas networks. Primers. Cathodic protection. Insulation.

Inerting. Purge.

Pressure tests. Filling of ditches. Compaction. Signaling.

Materials and recycling. Cleaning and lubrication of components of networks.



2 operation of networks of gas networks commissioning procedures. Trials of installations and equipment. Procedures for performing cuts and restoration of a section of a network service. Procedures for convictions of rush, branches and units. Seals. Measurements of parameters. Procedures. Instruments. Telemetry and telecontrol.

Operation, adjustment, regulation and control of networks. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the commissioning and operation of networks of gas, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 5: safety in installations of GAS level: 2 code: MF0614_2 associated with UC: preventing risks in facilities of gas duration: 60 hours capabilities and evaluation criteria: C1: analyze professional and environmental risks in operations related to gas facilities.

CE1.1 identify and assess the risks in the process of transportation, loading and unloading, lifting and handling of pipes and materials.

CE1.2 identify and assess the risks in the process of work in trenches.

CE1.3 identify and assess the risks in the process of machining, forming and welding of pipes and fittings.

CE1.4 identify and assess the risks of explosion resulting from handling of power tools and engines.

CE1.5 identify and assess the risks of deflagration derived from machining processes, forming and welding of pipes and fittings in the work load and the operations of installation and maintenance of gas installations.

CE1.6 identify and assess the risks of intoxication resulting from actions in gas installations.

CE1.7 identify and assess the risks in pressure testing and commissioning of the network.

CE1.8 identify and assess the risks in operation in gas networks manoeuvres.

CE1.9 describe the influence of gas leaks and combustion in the ozone layer and the greenhouse effect.

CE1.10 analyze the environmental impact of waste products generated in the facilities of gas-related activities.

C2: Develop measures and actions related to the plan of safety gas installations.

CE2.1 establish measures and actions to eliminate and reduce risks in the process of handling cargo, tools and materials, works in trenches, machining, forming and welding processes work in load, testing pressure and commissioning and other common processes in the Assembly, operation and maintenance of gas networks.

CE2.2 analyze the use and characteristics of individual and collective protective equipment used in the Assembly and maintenance of gas networks.

CE2.3 establish measures and actions to eliminate and reduce the risks of deflagration, explosion and fire in the proceedings related to the gas installations.

CE2.4 establish measures and actions to eliminate and reduce the risk of poisoning in actions related to the gas installations.

CE2.5 describe the signaling and safety requirements of the common areas of work in the Assembly and maintenance of gas networks.

CE2.6 establish measures and actions to eliminate and reduce environmental risks in the installation and maintenance of gas networks.

CE2.7 analyze the documentation of the safety plans of companies in the sector of gas and the related regulations.

C3: Rating with accidents emergency devices, describing them and establishing actions to be carried out in each case.

CE3.1 describe an emergency plan, analyzing the parts in which is divided.

CE3.2 describe the demands arising from an emergency plan on when to required resources.

CE3.3 define the actions to be followed by persons before an accident or a contingency, describing each of the measures of protection, assessment, support and first aid.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.3.

Other capabilities:
Responsible for the work that develops.

Comply with the rules of production set by the organization.

Interpret and execute work instructions.

Recognize the productive process of the organization.

Comply with the rules of production set by the organization.

Act quickly in problematic situations and not just waiting.



Contents: 1. risks and prevention measures in the installations of gas identification and assessment of risks. Security plans. Security techniques. Preventive measures. Risk analysis. Risks and prevention measures: works in trenches, transportation and handling of loads, machining, forming and welding of pipes and fittings, work load, pressure tests.

Risk of explosion and fire. Production, detection and protection. Tools and explosion proof equipment.

Toxic products. The process of destruction of the ozone layer. Greenhouse effect. Pollution by combustion, leaks and spills. Detection devices. Preventive measures. Treatment of pollutants. Treatment and recycling of waste products. Working environment. Applicable regulations.



2. installations of gas personal protective equipment safety equipment. Equipment of control against falls. Security Miscellanea.

Lifting loads. Signalling systems. Maintenance of equipment.



3. emergency on-site gas Emergency Plan. The rugged protection. Assessment of the accident. Aid application. First aid.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the prevention of risks in facilities of gas, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex IV professional qualifications: management of the installation and maintenance of professional family farms: energy and water level: 3 code: ENA193_3 general competition make the coordination of mounting, start-up service and operation management and maintenance of parks and facilities of wind power, with required quality and safety and in compliance with the applicable rules.



Competition UC0615_3 units: UC0616_3 wind energy installations projects: manage the commissioning and operation of installations of wind power UC0617_3: manage the maintenance of installations of wind power UC0618_2: preventing occupational hazards and act in cases of emergency in wind UC0619_2: assemble and maintain installations of wind energy environment professional scope professional develops his professional activity in the area of engineering planning and logistics, dedicated to the Assembly and in the operation and maintenance area dedicated to the operation of wind farms, in entities of public or private nature of small, medium or large size companies, both on their own as alien, regardless of its legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the sector of production of electrical energy within the renewable energy sub-sector. Likewise, the benchmark for the qualification is also in the field of companies associated with the maintenance and operation of wind farms.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Technical management of operation and maintenance on wind farms responsible for mounting of wind farms responsible for mounting of wind turbine specialists assemblers of wind turbine specialists in maintenance of wind farms training associate (570 hours) training modules MF0615_3: installations of wind power (150 hours) MF0616_3 projects: operation and commissioning of installations of wind energy (90 hours) MF0617_3 : Maintenance of wind power (120 hours) MF0618_2 facilities management: safety and assessment of occupational hazards in wind farms (60 hours) MF0619_2: installation and maintenance of wind power (150 hours) unit of competition 1: develop projects of Assembly of installations of energy wind level: 3 code: UC0615_3 realizations professionals and completion criteria: RP 1 : Development of supply and installations of wind energy.

CR 1.1 technical and administrative, information derived from the technical project, is used for the elaboration of the programme plan of Assembly according to the methods used in strategic planning and provisioning.

CR 1.2 the procurement plan is coordinating the plan of mounting with possibilities of provisioning and storage, ensuring supply at the established time.

CR 1.3 the definition of stages, following mounting procedures of each phase, lists of activities, time and human resources and materials needed are collected on mounting the installation plan, to run on time and cost.

CR 1.4 quality control criteria are set in the different stages that constitute the procurement and Assembly.

RP 2: Organize the previous processes of wind energy installations, supervising its execution.

CR 2.1 installation Assembly is organized according to the installation plan, establishing the sequence of processes, through drawings and technical documentation, and optimizing them for security, method, and time.

CR 2.2 coordinates the work of persons involved in the installation, ensuring the fulfillment of the programmed objectives according to criteria of efficacy and safety.

CR 2.3 the different components of the Assembly or installation are identified, locating its location from the plans and corresponding technical specifications.

2.4 CR materials, tools, and other technical resources are selected depending on the wind.

CR 2.5 receipt of components is done inspecting and evaluating the State of them, determining their adequacy to the technical requirements and transmitting non-conformities.

CR 2.6 work area is prepared in accordance with the requirements of the work itself and according to established procedures.

3 RP: Supervise the Assembly of wind energy installations, accessories and elements of control and regulation, starting from the drawings, standards and technical specifications of the project, complying with the applicable rules and established procedures.

3.1 CR displacement and location of the materials and equipment are managed, according to the logistics of the project, with the means of transport and lifting that prevent the deterioration thereof.

CR 3.2 the sections of the Tower Assembly is monitored by checking its alignment, verticality, pairs of tighten and seal.

CR 3.3 mounting the transformer is monitored, ensuring compliance with established procedures.

CR 3.4 gondola Tower placement is monitored by checking its alignment, verticality, pairs of tighten and seal.

CR 3.5 the rotor assembly is monitored according to established procedures, verifying the horizontality of the bushing, the pairs of press and State and draught of the shovel.

The realization of the electrical installation of average 3.6 CR, low voltage and control monitors, according to established procedures and in compliance with the applicable rules.

CR 3.7 the corrective measures to realize before deviations between the execution of the Assembly and the work plan are determined, giving instructions for their implementation.

4 RP: Develop technical reports and projects of small installations of wind turbines without a network connection.

CR 4.1 Basic climatological conditions, related to the wind, are determined from the location.

CR 4.2 technical data required for the installation are calculated based on weather conditions and the requirements of the installation itself.

4.3 CR placement, attachment and connection of the elements is determined by different legal, technical, environmental and climate factors.
4.4 CR reports and projects of autonomous installations of wind power without a network connection are made according to the procedures and rules of application, incorporating the information necessary for the execution of the work.



Professional context: means of production: working equipment, tools and measuring devices. Equipment for movement of materials. Digital meter, meter of insulation, tellurometer, anemometers, weather vanes and data acquisition equipment. Personal safety equipment. Harnesses, descenders, communications equipment. Applications of project management. Media related to foundations and civil works, armed ring, piles, concrete, among others. The plant components: towers, nacelles, blades, rotor, gearboxes, transformers, anemometers, weather vanes and data acquisition equipment, measuring equipment and control equipment. Specific applications of 'CAD' (computer aided drawing).



Products and results: wind turbine or the installation unit mounted and is ready for trial period. Technical brochures and small installations of wind turbines without a network connection.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Supply and Assembly programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Specific computer applications. Diagrams of management of projects (PERT, GANTT,) among others. Permits and authorizations: study of environmental impact, study of the wind resource, preliminary feasibility study; access rights to network, authorization of commissioning, inclusion in scheme that affects you. Internal rules of work. Legislation in the field of medium and low voltage, prevention of occupational hazards and protection of the environment, among others.



Unit 2 competition: Manage the implementation in service and operation of installations of energy wind level: 3 code: UC0616_3 realizations professionals and completion criteria: RP 1: develop commissioning processes underway and energizing of wind energy facilities, supervising its implementation.

CR 1.1 final testing protocol is interpreted according to the characteristics of the installation, identifying and developing guidelines of operation on the various elements of mechanical, electrical and control.

CR 1.2 commissioning of the installation operations are coordinated, ensuring quality and safety in every one of the operations that prove the consistency and sealing structures, the good performance of the subsystems in orientation, braking and pitch, and electrical circuits.

CR 1.3 different operating parameters are verified, checking that they fit the reference.

CR 1.4 technical and administrative documentation required in the process of setting up wind energy installation is managed.

2 RP: Perform operation manoeuvres, acting on the system of regulation and control of installations of wind power from drawings, standards and technical specifications, fulfilling established procedures and applicable regulations.

CR 2.1 necessary operation manoeuvres in a wind turbine or wind farm are analyzed, they value and proposed, depending on the State of the system, in order to ensure optimum and safe operation.

CR 2.2 data measures of speed and direction of wind, temperature, current, voltage, power and energy, are collected, registering them according to established procedures, to update the system and ensure the smooth operation of wind energy facilities.

CR 2.3 manoeuvres of checking and adjusting the parameters of the installation to benchmarks, as well as disconnection of wind energy facilities, are carried out according to established protocol.

CR 2.4 wind machine operating modes run, analyzing their conditions and way of safety.

3 RP: Operating systems remote control of management of wind farms, according to the established procedures for the control of the installation of wind power.

CR 3.1 information provided by specific applications of remote-(SCADA) - is interpreted, contrasting it with benchmarks.

CR 3.2 information provided by production counters gathered, preparing it to accounting.

CR 3.3 remote systems used in wind farms connected to network facilities are operated according to established procedures.

CR 3.4 work orders, derived from the acquired system information, communicate to field operators as appropriate.

4 RP: Collaborate in the development of wind energy facilities security plans, organizing and supervising their implementation to ensure safety and compliance with applicable regulations.

CR 4.1 the risks involved in the realization of a work are analyzed, explaining them according to the procedure of execution of the tasks.

CR 4.2 risk prevention campaigns are, participating in its design and disclosure.

CR 4.3 working conditions are reviewed, and, in his case, the substantial changes in workplaces that may affect the safety and health of workers.

CR 4.4 information on accidents, incidents and diseases is collected, establishing the methodology and by filling in the corresponding reports.

4.5 CR information and training in the area of occupational risk prevention and protection of the environment is transmitted to the workers, ensuring the use of individual protective equipment.

CR 4.6 contingencies and accident emergency plan is coordinated by following established methodology, quality, and safety.



Professional context: means of production: working equipment, tools and measuring devices. Specific computer applications for management and monitoring of systems, supervision, control and data acquisition-(SCADA) - and management of installation and maintenance. Programmable controllers. Digital meter, meter tellurometer, isolation, Network Analyzer, fasimetro and harmonics, Analyzer of power and energy, counters energy, speedometer, anemometer. Industrial communications, sensors and transducers, hub systems. Personal safety equipment. The plant components: towers, nacelles, blades, gearboxes, transformers, rotor, measuring equipment, control equipment.



Products and results: technical documentation of the processes of implementation and operation of wind energy facilities. Installation of wind power connected to the system of transmission and distribution electrical and managed. Implemented safety plans. Information and dissemination campaigns.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Mounting and maintenance programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Records of installations. Databases. Specific computer applications. Internal rules of work. Legislation in the field of medium and low voltage, prevention of occupational hazards and protection of the environment, among others.



Unit 3 competition: Manage the maintenance of installations of energy wind level: 3 code: UC0617_3 realizations professionals and completion criteria: RP 1: design and develop wind energy facilities maintenance programs.

CR 1.1 maintenance programs are produced by using the technical information provided by the manufacturers of equipment and installations of wind energy.

CR 1.2 definition of tasks, procedures and methods of intervention and removal/installation, checking ranges, time and human resources and materials needed to run on time and cost are verified, ensuring that they are contained in the installation maintenance program.

CR 1.3 quality control criteria are established in phases that make up the maintenance.

CR 1.4 the critical points of the equipment and installation involving risk of stop are considered in the development of maintenance programs.

CR 1.5 established maintenance programs are verified, ensuring that they optimize the resources, determine the needs for external support and guarantee compliance with production targets.

CR 1.6 the procedures used in the preventive and corrective maintenance update, with the frequency stipulated, by incorporating the identified improvements.

1.7 CR collaboration and participation in regular meetings with suppliers design engineering is controlled product according to continuous improvement, and to share the experience of the Department of operation and maintenance.

RP 2: Organize the processes of preventive, predictive and corrective maintenance of wind energy facilities, supervising them for your application.
CR 2.1 documentation received and generated, administrative, and technical analyses, using it for the Organization and supervision of the maintenance and repair of the equipment and installations of wind energy.

CR 2.2 specifications for material or component replacement are prepared to handle your purchase.

Spare 2.3 CR and its storage are managed from the technical documentation of the manufacturer and the history of machines and equipment.

CR 2.4 the work of persons involved in the maintenance is coordinated, watching over the fulfilment of the set objectives.

CR 2.5 the corrective measures when there are deviations in relation to the efficient operation of the system are determined, giving appropriate instructions for its correction.

CR 2.6 maintenance program monitoring is done by controlling the quality of implementation and costs, solving contingencies with efficiency and fulfilling the programmed objectives.

CR 2.7 corporate security plan follows, applying preventive, corrective measures and established emergency, for para evitar prevent accidents and minimize risks.

3 RP: Applying proactive maintenance techniques in wind power plants to identify and correct the causes originating the faults in equipment, components and installations by way of implementing solutions that attack the cause of problems, compliance with established procedures and applicable regulations.

CR 3.1 technical documentation, and other available sources of information (history, AMFEC, computerized programs of diagnosis or troubleshooting, among others) are analyzed to determine the extent of the failure or breakdown and develop a plan of action, from the collection of the data of the current state of the instalacion-sistema - machine and existing information on it (parts of breakdowns and incidents (, reading of indicators, among others).

CR 3.2 collected symptoms occur in the functional tests, specifying the type of dysfunction, facilitating the identification of the area of systems, equipment and/or parties concerned where the malfunction or breakdown, and settle potential interactions among them.

CR 3.3 tools and measuring instruments are chosen according to the symptom and system or equipment where it is present, and are used by applying the relevant procedures (preparation, connections, handling equipment, logical sequence of operations, security, among others) and in the established time.

CR 3.4 the possible source of failure of mechanical systems and equipment, is located according to a cause - effects, checking, analysing and listing process (fault tree) different variable generators of failure (pressures and temperatures, State and pressure of the lubricant, temperature and State of the refrigerant, consumption, flow rates, timing of movements, noise and abnormal vibration, loss, clearances, swings, State of moving parts and bearings (, data provided by programs of self-diagnosis, among others).

CR 3.5 the possible source of failures of electrical systems, regulation and control, is located according to a cause - effects, checking, analysing and listing process (fault tree) different variable generators of the judgement (continuity of drivers, State of connections, isolation of circuits and between metal masses, of different sensors, detectors, and electric switchgear (, symptoms presented by the different circuits, data provided by programs of self-diagnosis, among others).

CR 3.6 (physical or logical) type of fault and the functional block or module (detectors, transmitters, control elements, actuators, among others) where it is found, is located, using the action plan made to diagnose malfunctions in automated systems and communication.

CR 3.7 technical report on the diagnosis of the failure or breakdown is performed, including the necessary information (historical, tree failures, FMEA, cause and effect) to identify systems and damaged or causing the irregular operating elements and actions that take for the restitution of the operation of the system, assess the cost of the intervention and prevent its repetition.

CR 3.8 deviations from the characteristics and behavior of the components of the equipment or systems are identified, comparing them with established references to know their status and the causes that produce it.



Professional context: means of production: working equipment, tools and measuring devices. Equipment for movement of materials. Digital meter, meter of insulation, tellurometer, fasimetro. Network Analyzer and harmonics, power and energy Analyzer. Counters of energy, speedometer, anemometer. Computer applications for management of the production and maintenance (GPAO, CMMS). Data collection instruments. Equipment for the analysis of vibration, ultrasonic equipment and imaging infrared (thermal imaging camera). Personal safety equipment.



Products and results: installation of wind power operated and maintained. Established maintenance programs. Plans with a defined management system operation and maintenance.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Maintenance programs. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Databases. Specific computer applications. Internal rules of work. Legislation in the field of medium and low voltage, prevention of occupational hazards and protection of the environment, among others.



Unit 4 competition: Preventing occupational hazards and act in cases of emergency in wind farms level: 2 code: UC0618_2 realizations professionals and completion criteria: RP 1: assess occupational risks arising from the installation, operation and maintenance of wind turbines for its prevention.

CR 1.1 the company safety manual is applied according to each situation.

CR 1.2 risks of falls, blows, entrapments and violations of machinery are identified.

CR 1.3 accidents risks access to wind farms are identified.

CR 1.4 major electrical electrical hazards are identified.

CR 1.5 the possible consequences for the people of the identified risks are valued, classifying them for each of them.

CR 1.6 measures of control and prevention of risks are managed, adopting, at its level, the technical and organizational decisions that apply.

CR 1.7 information and safety recommendations are transmitted to persons who, under their responsibility, participate in the work of Assembly, operation or maintenance of wind turbines.

2 RP: Manage equipment safety and personal protection used in the installation and maintenance of wind farms and turbines, defining them and keeping them in a State of use, to prevent accidents and minimize risks.

CR 2.1 General working clothes and personal protective equipment are identified and managed according to the needs of the activity and regulatory conditions.

CR 2.2 specific safety equipment for the control of fall are identified, managed and tested with the established periodicity taking into account the applicable regulations.

CR 2.3 the operability of the means of telecommunication is monitored, ensuring it in all cases.

CR 2.4 personal protective equipment are inspected regularly as is stipulated reporting of impaired or not fit for their acquisition and replacement elements.

3 RP: Safely use equipment employed in the task of installation and maintenance of wind turbines, hitch, rising and signaling to prevent accidents and minimize risks.

3.1 CR hoists and guides are used safely.

3.2 CR loads, distribution angles, and centres of gravity are determined, evaluating static and dynamic behaviors.

CR 3.3 optical, verbal and gestural signaling plan applies in accordance with the applicable regulations and procedures established in the security plan.

4 RP: Use equipment and safety procedures to make the ascent and descent of the wind turbine meeting the security plan and applicable regulations, to prevent accidents and minimize risks.

CR 4.1 the procedures and limitations for the ascent to the wind turbine are followed, controlling compliance.

4.2 CR procedures and limitations for the descent of the wind turbine are followed, controlling compliance.

CR 4.3 the auxiliary equipment used in manoeuvres of ascent and descent are used properly and safely.

5 RP: Act according to the security plan of the company in the maneuvers of mounting and maintenance the turbine or the wind turbine power system, in order to prevent accidents and minimize risks.

CR 5.1 the safe of the turbine stop procedures are followed.

CR 5.2 maneuvers to ensure safety against electrical risks of the wind turbine are carried out in accordance with the method and corresponding legislation.
CR 5.3 maneuvers to ensure safety to the mechanical risks of the wind turbine are made, by intervening in the hydraulic system in accordance with the method and corresponding legislation.

CR 5.4 with substances and hazardous materials operations pursuant to regulatory requirements and corporate security plan.

6 RP: Act in cases of emergency in the shortest possible time taking into account the conditions of quality and safety.

CR 6.1 the rugged protection and isolation of the cause which has caused the accident occurs immediately.

CR 6.2 emergency is valued according to the established procedures and complying with applicable safety regulations.

CR 6.3 the request for emergency relief is managed as established in the security plan and applicable legislation, guaranteeing, in any case, the speed and efficiency of it.

CR 6.4 first aid provided following the sanitary recommendations prescribed in each case.

6.5 CR tests or with fire drills are performed periodically according to established planning.



Professional context: means of production: working equipment, tools and measuring devices. Movements of materials equipment: hydraulic jacks, cranes, hoists, tractel, trocolas. Hand tools: wrenches, mallets, level meter thickness, electric drill, hydraulic clamp terminals. Digital meter, insulation Tester, tellurometer. Personal safety and equipment auxiliary systems specific to the elevation and lowering of equipment and tools. Telecommunication systems. First aid kit. Systems for ascent and descent of equipment and tools. Equipment for descent, through the emergency exit, descenders. Evacuation and descent of injured, air rescue teams. The plant components: towers, nacelles, blades, gearboxes, transformers, rotor, measuring equipment, electrical and hydraulic drive and control equipment.



Products and results: occupational hazards in wind power installations identified. Secure facilities for the worker by applying the established measures. Emergency action plan.



Used or generated information: projects, cutting and assembly drawings. Mounting and maintenance programs. Service manuals and use. Security in the Assembly plan. Manual safety for the maintenance of wind turbines. First aid manual. Internal rules of work. Legislation in the field of medium and low voltage, prevention of occupational hazards and protection of the environment, among others.



Unit 5 competition: Assemble and maintain installations of energy wind level: 2 code: UC0619_2 realizations professionals and completion criteria: RP 1: organize the work of mounting and maintenance of installations of wind energy in accordance with the corresponding project.

CR 1.1 mounting or installation components are identified, locating its location, from the instructions received or plans and corresponding technical specifications.

CR 1.2 equipment and installations maintenance actions are determined by establishing the sequence of intervention, based on plans and specifications, and optimizing the process in terms of safety, method and time.

1.3 CR possible dysfunction between the design of the installation and the characteristics of the materials received, or own site, determines, adopting, at its level, the technical and organizational decisions that apply.

CR 1.4 the sequence of Assembly tasks is established from instructions, drawings and technical documentation, optimizing the process in terms of safety, method and time.

1.5 CR materials, tools, and other technical resources are selected according to the type of wind.

CR 1.6 work area is prepared in accordance with the requirements of the work itself and according to established procedures.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan of the company, during the installation and maintenance of wind power plants, to prevent accidents and minimize risks.

CR 2.1 Professional, mechanical, electrical or other risks are identified according to the security plan, before starting the Assembly or maintenance of the installation of wind power.

CR 2.2 means of protection against risks arising from the installation and maintenance are selected to avoid accidents.

CR 2.3 work of their responsibility areas are kept in conditions of order and cleanliness to avoid accidents.

CR 2.4 emergencies are addressed, following the Protocol, adapting it according to the case.

3 RP: Mount generators, accessories and elements of control and regulation, starting from the drawings, standards and technical specifications of the project, complying with the applicable rules and established procedures.

3.1 CR materials and equipment move and placed, according to the logistics of the project, with the means of transport and lifting that prevent the deterioration thereof.

CR 3.2 the sections of the tower are assembled, check his alignment, verticality, pairs of tighten and seal.

CR 3.3 the transformer is mounted according to established procedures.

CR 3.4 gondola is placed in the Tower, checking its alignment, verticality, pairs of tighten and seal.

CR 3.5 rotor is mounted according to established procedures, verifying the horizontality of the bushing, the pairs of press and State and draught of the shovel.

3.6 CR average electrical installation, low voltage and control is performed according to established procedures and in compliance with the applicable rules.

CR 3.7 a stand-alone installation of wind power, without a network connection, is mounted according to the plans, standards and technical specifications of the project.

4 PR: Make the preventive or predictive maintenance of the installations of wind power from drawings, standards and technical specifications, for its operation, following established procedures and applicable regulations.

CR 4.1 calibration general pairs of tighten checks on a statutory basis.

CR 4.2 lubrication and oil change is performed according to established procedures and in conditions of safety.

CR 4.3 equipment and facilities are cleaned with means suitable and according to procedures established.

CR 4.4 sealing and the absence of corrosion of equipment and installations is checked with the rated frequency.

CR 4.5 electrical insulation of the equipment and facilities status is checked with the rated frequency.

CR 4.6 the equipment and tools used are reviewed, keeping them in a State of operation.

CR 4.7 the results of inspections and operations are included in the report.

5 RP: Perform corrective maintenance operations in wind power installations, establishing the process of performance, using manual instructions and drawings, to restore functional conditions to set quality and safety.

CR 5.1 different faults are detected, analyze and appreciate their causes.

CR 5.2 performance before the fault string is set, optimizing the process in terms of safety, method and time, selecting human resources, equipment, and tools, materials, useful and necessary auxiliary means.

CR 5.3 the damaged item is repaired or replaced, following the sequence of the process of disassembly and Assembly established, within the planned time and with the required quality, checking its operation.

CR 5.4 installation functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 5.5 the parties and made repair reports are completed to update the historical record of peacekeeping operations.



Professional context: means of production: working equipment, tools and measuring devices. Movements of materials equipment: hydraulic jacks, cranes, hoists, tractel, trocolas. Hand tools: wrenches, mallets, level meter thickness, electric drill, hydraulic clamp terminals. Digital meter, insulation Tester, tellurometer. GPS. Personal safety and equipment auxiliary systems specific to the elevation and lowering of equipment and tools. The plant components: towers, nacelles, blades, gearboxes, transformers, rotor, measuring equipment, electrical and hydraulic drive and control equipment.



Products and results: wind installation mounted, installed and is ready for trial period. Wind installation in proper state of maintenance.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Mounting and maintenance programs. Parts of the work. Service manuals and use. Installation and maintenance instructions. Security in the Assembly plan. Manual safety for the maintenance of wind turbines. Databases. Specific computer applications. Internal rules of work. Legislation in the field of medium and low voltage, prevention of occupational hazards and protection of the environment, among others.
TRAINING module 1: projects of Assembly facilities of energy wind power level: 3 code: MF0615_3 associated with UC: develop projects of installations of wind duration: 150 hours capabilities and evaluation criteria: C1: analyze the operation of wind energy facilities determining technical specifications necessary for mounting.

CE1.1 explain the operation of a wind energy installation, taking into account the technical, physical and climatic factors involved in the use of wind energy.

CE1.2 describe the general types of wind energy facilities functioning.

CE1.3 interpret, from functional schemas and operation of wind farms, the different elements of actuation and control its operation, analyzing, automated or manual, corresponding.

CE1.4 describe the fundamental requirements of the regulations applicable to such facilities.

C2: Organizing the process of installations of wind energy from the corresponding technical projects.

CE2.1 analyze the documents that make up a project, technical report or a manual installation of a wind installation, distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE2.2 describe the General stages of development of a wind farm project, identifying the technical phases of Assembly of the same from schedules and plans.

CE2.3 represent symbolic diagrams, sketches and isometric diagrams of a wind installation and its components, facilitating its mechanical and electrical Assembly.

CE2.4 managing graphic information of wind power produced in representation through computer systems, performing operations of copying or modification of data, using standardized procedures pertaining to specific applications of design and representation of wind energy installations.

CE2.5 in a practical course of development of a project of mounting an installation of wind power, characterized by the planes and the corresponding technical documentation:-identify the components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose it: towers, nacelles, blades, gearboxes, transformers, rotor, measuring equipment, control equipment.

-Relate the composition and characteristics of the wind installation with the applicable regulatory requirements.

-Reason the operation of the system, describing the function, structure and composition of the different parts that make it up.

C3: To develop programs of supply for mounting of wind energy installations.

CE3.1 analyze the administrative and technical information derived from the technical project, using it in the elaboration of the programme of procurement in the Assembly according to methods used in strategic planning.

CE3.2 perform the provisioning plan coordinating the plan of mounting with possibilities of provisioning and storage, ensuring supply at the established time.

CE3.3 describe the criteria for quality control of the different stages that constitute the procurement.

CE3.4 in a practical course of development of a project of installation of an installation of wind that contains at least one wind turbine and characterized by levels of installation and commissioning manuals:-determine the technical requirements applicable to components.

-Determine the criteria of quality control in the reception of components.

-Manage the procurement logistics.

C4: Develop work plans for the Assembly of installations of wind energy according to the corresponding projects and established work procedures.

CE4.1 describe the various techniques used in the process of wind power installations: Assembly, screwed, leveling, riveting, welding, anchorage, connection.

CE4.2 relate the human resources involved in different phases of operations of Assembly of installations of wind energy according to the established work procedures.

CE4.3 describe the procedures of optimization of work according to the established work procedures.

CE4.4 represent the schemes of work organization and time control in the Assembly of installations of wind energy through diagrams and schedules appropriate to their level.

CE4.5 in a practical course of development of a project of installation of an installation of wind that contains at least one wind turbine and characterized by levels of installation and commissioning manuals:-determine the requirements of the areas of work in the various stages of Assembly.

-Select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

-Determine the corrective measures preventing possible deviations in relation to the work plan.

C5: Define the quality criteria in the operations of installations of wind power from technical documentation, complying with the applicable rules and established procedures.

CE5.1 define the demands required in the preparation of the work according to the own work area, identifying specific occupational risks and proposing corrective measures.

CE5.2 make plans for movement of equipment and materials by placing them in the most appropriate place for work, in conditions of safety.

CE5.3 define the critical points of supervision of the Assembly of the sections of the Tower making its verticality, pairs of tighten and seal.

CE5.4 define the criteria for alignment, verticality, pairs of tightening and sealing in the placement of the gondola in the tower.

CE5.5 define the criteria for supervision of the rotor assembly check the horizontality of the bushing, the pairs of press and State and draught of the shovel.

CE5.6 coordinate the completion of the electrical installation of medium, low voltage and control according to established procedures and applicable regulations.

CE5.7 define test protocol of the wind turbine, drive of pitch and yaw, monitoring of chain of emergency controls.

C6: Develop technical reports and projects of small wind power installations, writing technical documentation necessary to carry out the Assembly.

CE6.1 define the legal, technical and weather conditions from which can develop a project or technical report of the installation of a wind turbine without connection to the mains.

CE6.2 collect, analyse and calculate the data required to carry out the installation.

CE6.3 design the installation drawings on paper backing or, where appropriate, digital.

CE6.4 make a technical report in which to develop the information required for the supply of materials and Assembly of the installation.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.5; C3 on CE3.4; C4 on CE4.5; C5 regarding CE5.6.

Other skills: be responsible for the work that develops, fulfilling the objectives and deadlines.

Demonstrate a good make professional.

Adapt to situations and new contexts.

Sharing information with the team.

Participate and collaborate actively in the task force.

Demonstrate flexibility to understand changes.



Contents: 1. general operation of wind farms weather, wind and wind power. Use systems.

Wind farms. Composition and performance. Location and environmental impact.

Overall functioning and installation configuration.

Systems of safety in the operation of the facilities.

Specification and description of equipment and constituents: wind turbines, towers, nacelles, blades, gearboxes, transformers, rotor, measuring equipment, types of control.

Applicable regulations: electrical, safety and environmental.



2 projects wind concept and types of projects. Memory, plans, budget and specifications.

Levels of situation. Detail and assembly drawings. Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules.

Specific applications of representation and aided design. Display and interpretation of scanned drawings. Basic operations with graphics files.



3. planning of wind farms organization of the mounting Assembly. Strategic planning techniques.

Methodological specifications for the installation of wind turbines and wind farms.

Preparation of the assemblies. Planning and programming. Assembly procedures. Trials of installations and equipment. Applicable regulations.



4. mounting of wind power facilities connected to network procedures and preparation and layout of facilities operations.

Civil works: displacement and hoisting of materials and equipment.
Identification and selection of equipment and necessary elements for the Assembly based on the plans of the installation.

Adaptation and improvement of facilities (repowering).

Techniques and Assembly, settlement, alignment and clamping operations.

Assembly of the various components of a wind installation connected to net.

Quality in the Assembly. Technical requirements specifications.

Technical documentation of the work. Reports.

Security in the Assembly.



5 development of wind projects in small power general operation of a wind installation of small power.

Types of wind turbines.

Anchorage systems and clamping structures.

Calculation of small installations.

Electrical circuits. Safety and control systems.

Writing technical reports and small projects.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the development of projects of installations of wind power, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: operation and putting in service of installations of energy wind level: 3 code: MF0616_3 associated with UC: manage the commissioning and operation of installations of wind power duration: 90 hours capabilities and evaluation criteria: C1: develop and coordinate the processes of starting and energization of wind energy facilities.

CE1.1 identify guidelines of operation on the various elements of mechanical, electrical and control, developing them from the final testing according to the characteristics of the installation Protocol.

CE1.2 describe the procedures, tools and equipment of each of the operations of energization and operation start-up must be carried out in wind power installations.

CE1.3 coordinate the commissioning of the installation, ensuring quality and safety in each of the operations which check the good operation of the circuits, electrical insulation, consistency and tightness of the structures and the adaptation of the different parameters.

CE1.4 manage the technical and administrative documentation required in the process of setting up wind energy installation.

CE1.5 in a practical course of management of the commissioning and operation of an installation of wind energy, that contains at least one full wind turbine to connect to network:-determine the points and procedures for checking the electrical system in relation to the corresponding diagrams.

-Define tension commissioning protocol taking into account the manufacturer's instructions.

-To establish the criteria for optimal functioning of guidance subsystems, braking and pitch.

-Fill in the parts of work and checklists of all phases of energization and operation underway wind energy installation.

C2: Perform operation manoeuvres in the installations of wind energy from the technical documentation, using tools, equipment and materials, and complying with the applicable rules and established procedures.

CE2.1 analyze operation in a wind farm or wind turbine maneuvers and their impact on the performance or stability of the system by pointing out the critical elements.

CE2.2 perform maneuvers of operation to start / stop of wind turbines.

CE2.3 carry out measures of variables at different points of the installation, following the relevant technical instructions and making your registration.

CE2.4 Regular installation according to the obtained measures and technical specifications, optimizing performance with criteria of efficiency and checking its operation.

C3: Operating systems remote control of management of wind farms, following the established procedures.

CE3.1 interpret information provided through specific software applications from remote, contrasting it with benchmarks.

CE3.2 operate in remote control systems used in wind farms connected to network facilities.

CE3.3 manage the information provided by telemetry (production counters) systems required for the accounting of the installation.

CE3.4 develop the procedure for the allocation of work orders to field operatives.

C4: Collaborate in the development of wind energy facilities security plans, organizing and supervising its implementation.

CE4.1 participate in the analysis of security risks, take corrective measures, avoiding accidents and minimizing risks.

CE4.2 participate in the design and development of information campaigns on prevention of risks in the field of wind facilities, communicating to the workers in charge of occupational risks resulting from maintenance or installation mounting.

CE4.3 apply a methodology for collecting information on accidents, incidents and diseases.

CE4.4 coordinate the emergency plan when it is activated.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.5; C2 CE2.2, CE2.3 and CE2.4; C3 on CE3.2.

Other capabilities: demonstrate a good make professional.

Responsible for the work developed and the fulfilment of the objectives.

Learn new concepts or procedures and to effectively leverage the training using the knowledge acquired.

Communicate effectively with the right people at any given time, respecting the channels established by the organization.

Demonstrate resistance to stress, stability of mood and impulse control.

Demonstrate flexibility to understand changes.



Contents: 1. wind power electricity generation systems. Transport, transformation and electrical power supply. Power generation machines. Wind turbines. Physical and functional principles of wind turbines.

Electrical circuits. Polyphase systems.

Wind power installations connected to the network. Facilities management.

Operation of the power grid. Technical requirements of network-connected systems.

Remote control and remote control of wind farms. Remote control and telemetering systems.

Specific applications of communication and management.



2. operations of commissioning and operation of installations of wind energy usual manoeuvres in the exploitation of a wind energy installation.

Manual and automatic systems for facilities operation.

Trials of installations and equipment.

Tools, equipment and techniques for the electric check.

Tools, equipment and techniques for mechanical check-up.

Procedures and operations to take action.

Slogan of the characteristic parameters values: checking and adjusting.

Maneuvers of energizing, startup and shutdown of the installation. Voltage facilities commissioning protocols.

Verification of subsystems of orientation, braking and pitch.

Administrative documentation associated with the energizing of facilities.



3 security plans on installations of wind power implementation plans for safety in wind farms. Applicable regulations.

Methods for collecting information on incidents.

Factors and situations of risk. Prevention management. Emergency plans.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the management of the commissioning and operation of installations of wind power, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.
TRAINING module 3: management of the facilities maintenance of energy wind power level: 3 code: MF0617_3 associated with the UC: manage the maintenance of installations of wind power duration: 120 hours capabilities and evaluation criteria: C1: analyze the general operation of the wind farms, establishing the maintenance plan.

CE1.1 describe the operation of a wind installation from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 point out the elements of a wind installation on which can be operated manually or automatically and the consequences of his manipulation.

CE1.3 identify the elements that must be made from a specific program of maintenance preventive maintenance at a level of a wind installation.

CE1.4 explain the consequences for a particular installation of the faults in their critical points.

C2: Design and develop wind energy facilities maintenance programs.

CE2.1 preparing maintenance programs, updating them based on technical information provided by the manufacturers of equipment and installations of wind energy.

CE2.2 join, the program of maintenance, the definition of tasks, procedures and methods of intervention and removal/installation, checking ranges, times and human resources and materials needed to run on time and cost.

CE2.3 analyse, within the framework of the program of maintenance, the critical points of the equipment and installation involving personal risk, environment or for the proper functioning of the installation.

CE2.4 determine, in the programmes, the optimization of own resources and the definition of the external supports.

CE2.5 manage the spare parts and their storage in a systematic way.

CE2.6 establish quality control criteria in different phases that make up the maintenance.

C3: Coordinating the work of preventive, predictive and corrective maintenance of equipment and installations of wind energy components.

CE3.1 analyze the need for preventive, predictive and corrective maintenance on equipment and components of the installations of wind energy according to an established method.

The CE3.2 is to describe the procedures of maintenance that should be performed on equipment and components of wind energy facilities.

CE3.3 in a practical course of management of the maintenance of a system of wind energy with different elements and operational:-identify the elements that preventive maintenance is required.

-Establish a plan for the operations of checking and adjusting of the couple of tighten, grease and oil change, operations operations of checking and correction of the general condition of equipment and installations for corrosion and tightness.

-Describe the procedures for checking the status of electric insulation of equipment and facilities.

-Define the values of the characteristic parameters of the installation and describe the procedures for obtaining and checking.

-Check the correct functioning of the subsystems in orientation, braking and pitch.

-Develop the documentation related to the results of the inspections and operations.

C4: Monitor processes of corrective maintenance of wind power plants.

CE4.1 analyze documentation received and generated, technical and administrative, using it in the Organization and supervision of the maintenance and repair of the equipment and installations of wind energy.

CE4.2 coordinate the work of persons involved in the corrective maintenance by watching over the fulfilment of the set objectives.

CE4.3 determine and implement corrective measures to deviations in the efficient operation of the installation.

CE4.4 control in maintaining quality, streamlining costs, solving the contingencies with maximum efficiency and fulfilling the programmed objectives.

C5: Applying proactive maintenance techniques in wind power installations.

CE5.1 describe the procedures to be followed in proactive maintenance techniques.

CE5.2 diagnose common symptoms obtained in testing, identifying the involved area.

CE5.3 determine the tools and measuring instruments according to the symptoms and equipment where they occur.

CE5.4 in a practical course of management of the maintenance of wind energy installations, in which a series of factors are controlled to carry out proactive maintenance:-identify the source of the failure.

-Choose the tools and instruments of measurement according to the symptoms and affected equipment.

-Compare the measures taken with the reference.

-Determine the location and scope of the failure.

-Complete technical diagnosis of the failure report.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.3; C4 on CE4.4; C5 regarding CE5.4.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Demonstrate a good make professional.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Get used to the pace of work of the organization.

Demonstrate flexibility to understand changes.

Adapt to new contexts or situations.



Contents: 1. maintenance of wind farms maintenance structure programs. Function, objectives and types.

The maintenance organization. Inspections. Preparation and release planning.

Systems of maintenance management, generic tools for maintenance management systems CMMS.

Faults in the systems. Techniques of diagnosis and localization.

Maintenance of equipment and items. Procedures and media. Vibration monitoring systems. Oil analysis. Economic management of the maintenance. The cost of the maintenance. Maintenance productivity. Warehouse and maintenance material. Supplies. Organization and management of maintenance warehouse. Homologation of suppliers. Technical specifications of spare parts. Specific management applications.



2. preventive maintenance of wind power plants turbines maintenance program. Planning and management of preventive maintenance.

Parameter: obtaining and registration procedures.

Predictive maintenance. Thermographic, vibration and oil analysis.

Proactive maintenance. Techniques. Tools and measuring instruments.

Maintenance safety: risks, prevention, emergency.



3. principles of corrective maintenance of wind turbine troubleshooting at wind energy facilities.

Procedures for mechanical and electrical isolation of the different components.

Methods for the repair of components of the facilities.

Management of the replacement of equipment and components.

Reduction of environmental impacts.

Comprehensive utilization of the installation.



4. systems of regulation and control of wind turbines automation and control systems in wind turbines. Types of control.

Principles of regulation and control. The computer as a control element. Programmable Automat. Control and remote facilities. Final control elements. Typical circuits of pneumatic, hydraulic and electrical control in wind turbines. Measurement of physical variables. Transducers.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the management of the maintenance of installations of wind power, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: security and risk professionals in wind farms level assessment: 2 code: MF0618_2 associated with UC: preventing occupational hazards and act in cases of emergency in wind duration: 60 hours capabilities and evaluation criteria: C1: develop criteria and classification systems that define and assess occupational risks arising from the installation, operation and maintenance of wind turbines.

CE1.1 analyze the different professional activities carried out in the installation of a wind turbine at a wind farm, determining the risk situations and classifying them by type and importance.
CE1.2 analyse the activities of maintenance in a wind farm, determining the risk situations and classifying them by type and importance.

CE1.3 define the measures for control and prevention of risks in each case.

CE1.4 developing measures to disseminate information on prevention in the installation, operation and maintenance of wind farms.

C2: Describe different safety and personal protective equipment used in the work of the Assembly and maintenance of wind farms.

CE2.1 sort, establishing characteristics, equipment personal protective and working clothes used in the installation and maintenance of wind turbines.

CE2.2 define the use and characteristics of the safety equipment for control of fall.

CE2.3 describe the performance and features of wireless telecommunications equipment, arguing its importance as an element of security.

CE2.4 describe the critical points of inspection and maintenance of personal safety equipment and front falls.

C3: Analyze maneuvers of ascent and descent of materials and people of a wind turbine, describing the procedures and equipment needed to safely.

CE3.1 establish security requirements for operators to rise or be of a wind turbine.

CE3.2 describe procedures and necessary equipment for lifting and lowering of materials and tools to the wind turbine.

CE3.3 relate types and conditions of signaling, as well as the delimitation of zones of protection, in the tasks of lifting loads carried out during Assembly and maintenance.

C4: Analyze the conditions and procedures that ensure safety in the work of the Assembly and maintenance of wind farms.

CE4.1 describe the procedure of the turbine stop.

CE4.2 describe the operations necessary to control and reduce the electrical hazards during maintenance.

CE4.3 describe the operations necessary to control and reduce the risks of mechanical origin resulting from the hydraulic and pneumatic system.

CE4.4 related substances and hazardous materials present in wind power installations, determining the precautions necessary in each case.

C5: Rating with accidents emergency devices, describing each of them and establishing actions to be carried out in each case.

CE5.1 describe an emergency plan, analyzing the parts in which is divided.

CE5.2 describe the demands arising from an emergency plan on when to required resources.

CE5.3 define the actions to be followed by persons before an accident or a contingency, describing each of the measures of protection, assessment, support and first aid.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.2.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Respect the procedures and internal rules of the organization.

Interpret and execute work instructions.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Capacity of rational response to emergencies with empathy and poise.

Propose alternatives with the aim of improving results.



Contents: 1. occupational hazards in the installation and maintenance of wind farms technological processes and identification of risks. Safety Manual.

Risks of mechanical origin. Electrical hazards. Risks associated with hazardous materials and substances.

Prevention and control of occupational hazards in the manoeuvres performed with the wind turbine in operation. Prevention and control of occupational hazards in the manoeuvres performed with the stationary turbine.

Applicable regulations.



2. personal protective equipment safety equipment.

Equipment of control against falls.

Security Miscellanea.

Communication equipment and protocols of notice.

Lifting loads.

Signalling systems.

Maintenance of equipment.



3 emergency Emergency Plan.

The rugged protection.

Assessment of the accident.

Aid application. First aid.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the prevention of occupational hazards and the action in emergencies in wind farms, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 5: mounting and maintenance of installations of energy wind power level: 2 code: MF0619_2 associated with UC: assemble and maintain installations of wind power duration: 150 hours capabilities and evaluation criteria: C1: develop a work plan from an Assembly or a particular maintenance work project.

CE1.1 identify the elements of an installation of wind energy in an Assembly project or in a technical report.

CE1.2 perform simple symbolic schemes related to the detail of the Assembly and with the performance of the maintenance.

CE1.3 describe the tasks of the Assembly or maintenance, these sequencing and describing the tools and equipment to be used.

CE1.4 define the characteristics that must have the work environment before performing the activity of maintenance or Assembly process, pointing out the security requirements.

C2: Perform installation of a wind turbine at a wind energy installation.

CE2.1 define the materials and equipment necessary for the Assembly of wind turbines and their displacement and location.

CE2.2 describe the procedure of Assembly of wind turbines, determining the conditions of alignment, verticality, pairs of tighten and seal.

CE2.3 determine the procedures and characteristics of mounting the transformer and electrical installation of medium, low voltage and control of the facilities.

CE2.4 determine the procedures for placement of the gondola in the Tower, identifying their characteristics of alignment, verticality, pairs of tighten and seal.

CE2.5 determine the rotor assembly procedures, identifying their characteristics of horizontality of the bushing, the pairs of press and State and draught of the shovel.

CE2.6 operations of small wind installations without a network connection.

CE2.7 in a practical course of Assembly of an installation of wind power, characterized by the planes and the corresponding technical documentation:-perform the reconsideration on the ground of the materials and equipment needed, determining the placement of these mounting.

-Determine procedures for the Assembly of the sections of the tower or the corresponding structure, establishing alignment, verticality and fastening requirements.

-Carry out the Assembly operations of the transformer, with the established criteria of safety and quality.

-Operations of the gondola or turbine placement in the Tower, with the established criteria of safety and quality.

-Make the electrical connections of the different equipment, generator and transformer.

C3: Perform preventive maintenance operations in a wind energy installation, performing maintenance manuals and general instructions.

CE3.1-identify pairs of tightening of various equipment and items.

CE3.2 describe the procedures to perform the lubrication and oil of various equipment and items changes.

CE3.3 define the characteristics of tightness, corrosion and electrical insulation of the equipment and facilities.

CE3.4 describe the operations of cleaning equipment and facilities.

CE3.5 in a practical course of maintenance of a system of wind power, in their preventive maintenance:-check and tare pairs of tightening of various equipment and items.

-Grease and replace the oil of the gearbox and other dynamic elements of the wind turbine.

-Review and maintain cleaning and sealing equipment and wind power facilities.

-Check and maintain electrical equipment to ensure the proper functioning of the same.

-Write reports and documents associated with the preventive maintenance tasks.

C4: Performing the corrective maintenance on a wind energy installation, properly interpreting the instructions, projects, plans and maintenance manuals.

CE4.1 detect, analyze and assess the usual troubleshooting non-specialized.
CE4.2 develop a sequence of action in accordance with methods and systematic failure resolution procedures, ensuring the quality and safety performance.

CE4.3 define the equipment, tools and instruments needed to repair the detected fault.

CE4.4 repair or replace the defective item and check the proper functioning thereof before restoring the service.

CE4.5 define the protocols needed for the restoration of the wind turbine to nominal operation.

CE4.6 write reports and documents associated with corrective maintenance tasks.

Skills whose acquisition must be completed in a real work environment: C2 with regard to CE2.6 and CE2.7; C3 on CE3.5; C4 on CE4.4.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Participate and collaborate actively in the task force.

Get used to the pace of work of the organization.

Demonstrate a good make professional.



Contents: 1. methodology of the Assembly of installations of wind energy installations. Installation of wind turbines and wind farms.

Methodological specifications for the installation of wind turbines and wind farms.

Procedures and operations preparation and layout of the facilities.

Mounting organization and safety plan phases. Applicable regulations.



2. mounting of wind energy techniques and Assembly, settlement, alignment and clamping operations.

Mounting of gondolas and shovels. Mounting of pictures of protection, automation and electrical networks. Mounting of sensors, measurement instruments and accessories. Mounting of transformers.

Quality in the Assembly. Technical requirements specifications. Security systems. Technical documentation of work processes. Parts of the work. Applicable regulations.



3. preventive maintenance of wind energy type of troubleshooting installations. Preventive maintenance. Maintenance program.

Replacement of equipment operations. Mechanical operations in the maintenance of wind power plants. Electric circuit operations.

Equipment and tools.

Cleaning of equipment and installations: rates and procedures.

Lubrication equipment: types and procedures.

Applicable regulations.



4. corrective maintenance of installations of wind power troubleshooting at wind energy facilities.

Procedures for mechanical and electrical isolation of the different components.

Methods for the repair of components of the facilities.

Disassembly and repair or replacement of equipment and components.

Economic analysis of the actions.

Equipment and tools.

Testing systems and commissioning of the installation procedures.

Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Assembly and maintenance on installations of wind power, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex V professional qualification: installation and maintenance of solar photovoltaic systems professional family: energy and water level: 2 code: ENA261_2 competition general installation, commissioning, operation and maintenance of solar photovoltaic systems complying with the applicable rules.



Competition UC0835_2 units: rethink solar photovoltaic UC0836_2: mounted solar photovoltaic UC0837_2: maintain solar photovoltaic environment professional scope professional develops his professional activity in the area of production dedicated to the Assembly and maintenance of photovoltaic solar systems, entities of nature private or public businesses of all sizes, both on their own as alien, regardless of its legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the energy sector, sub-sector of renewable energies, in productive activities that is mounting, operation and maintenance of photovoltaic systems for the production of electrical energy.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Editors of solar photovoltaic operators of photovoltaic solar systems maintenance of solar photovoltaic training associate (450 hours) training modules MF0835_2: layout of solar photovoltaic systems (120 hours) MF0836_2: photovoltaic solar installations (270 hours) MF0837_2: maintenance of solar photovoltaic (60 hours) unit of competition 1: Rethinking installations solar PHOTOVOLTAIC level: 2 code: UC0835_2 realizations professionals and implementation criteria : RP 1: Rethinking photovoltaic panels from the project or technical report, fulfilling the rules applicable to photovoltaic solar installations.

CR 1.1 type to install photovoltaic panels as well as its functional features and specifications are identified using the administrative and technical information derived from the project or technical report.

CR 1.2 the location of photovoltaic panels is located from levels and corresponding technical specifications.

CR 1.3 malfunctions detected between the project or technical report and the location of the panels, are transmitted to the responsible superior, proposing solutions where appropriate.

1.4 CR locations and characteristics of anchorage, supports and connections of the components and construction elements are previously determined to be assembled.

CR 1.5 panels location is marked on the ground from the project or technical report taking into account the characteristics of the place.

CR 1.6 work area affected is indicated according to the demands of security and regulatory requirements.

2 RP: Rethinking solar photovoltaic systems connected to the network from a project or technical report, fulfilling the rules applicable to photovoltaic solar installations.

2.1 CR the connection type to perform as well as the functional characteristics and specifications of the elements and protections are identified using the administrative and technical information derived from the project or technical report.

CR 2.2 connection point and the characteristics of the network which will be to connect the installation are identified from drawings and technical specifications.

CR 2.3 malfunctions detected between the project or technical report and the location of the elements, are transmitted to the responsible superior, proposing solutions where appropriate.

CR 2.4 location of the equipment and the layout of the pipes, are marked on the ground from the project or technical report, taking into account the characteristics of the place.

CR 2.5 work area affected is indicated according to the demands of security and regulatory requirements.

3 RP: Rethinking solar photovoltaic isolated from a project or technical report, fulfilling the rules applicable to photovoltaic solar installations.

CR 3.1 type of storage/accumulation expected as well as the functional characteristics and specifications of the various elements and protections are identified using the administrative and technical information derived from the project or technical report.

CR 3.2 malfunctions detected between the project or technical report and the location of parts, are transmitted to the responsible superior, proposing solutions where appropriate.

CR 3.3 location of the equipment and the layout of the pipes, are marked on the ground from the project or technical report, taking into account the characteristics of the place.

CR 3.4 work area affected is indicated depending on requirements of safety and regulatory requirements.
4 RP: Rethinking energy system installations isolated from a project or technical report for their Assembly, complying with the applicable rules for solar photovoltaic.

CR 4.1 the type of planned energy support system as well as the functional characteristics and specifications of the various elements and protections are identified using the administrative and technical information derived from the project or technical report.

CR 4.2 energy support system site is located from the drawings and technical specifications.

CR 4.3 equipment location and the layout of the pipes, are marked on the ground from the project or technical report, taking into account the characteristics of the place.

CR 4.4 affected work area is indicated depending on requirements of safety and regulatory requirements.



Professional context: means of production: drawing tools. Specific applications of design. GPS, anemometer, wind vane, compass, topographic apparatus. Elements and measurement instruments. Inclinometers. Pyranometers. Pirheliometros. Marking tools. Signalling material. Security equipments.



Products and results: solar photovoltaic interpreted and redesigned. Changes in solar installations.



Used or generated information: technical documentation of the installation. Situation and geographical levels. Drawings and installation diagram. Schemes and diagrams of principle. List of parts and components. Mounting, parts of work programs. Technical specifications. Tables, graphs and maps solar. Catalogues. Service manuals and use. Mounting and operating instructions. Mapping traditional and digitalized. Internal rules of work. Legislation, security, solar photovoltaic systems and the company's electric power distribution and transport which will carry out the coupling of the photovoltaic plant.



Unit 2 competition: Mount installations solar PHOTOVOLTAIC level: 2 code: UC0836_2 realizations professionals and completion criteria: RP 1: organize the mounting brackets, panels, storage system, support systems, tracking systems, circuits and electrical and electronic equipment of photovoltaic solar systems according to project and programme of installation.

CR 1.1 the Assembly sequence is established from drawings and technical documentation, optimizing the process in terms of safety, method and time.

1.2 CR materials, tools, and other technical resources are selected depending on the type of solar photovoltaic.

CR 1.3 receipt of components is done inspecting and evaluating the State of the same, determining their adequacy to the technical requirements.

CR 1.4 work area is prepared in accordance with the requirements of the work and according to established procedures.

CR 1.5 coordination, at its level, with different people involved in the work is done according to criteria of efficacy and safety.

2 RP: Apply preventive, corrective and emergency measures established in the security plan, during the installation of solar photovoltaic systems to prevent accidents and minimize risks.

CR 2.1 origin electrical and chemical occupational risks related to storage/accumulation systems are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.2 Professional origin mechanical and electrical risks associated with farms support systems are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.3 Professional origin mechanical, electrical and environmental risks associated with conventional generators support systems are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.4 means of protection against risks arising from the Assembly, are selected and are used according to instructions, to avoid accidents.

CR 2.5 work of their responsibility areas are kept in order and cleanliness to avoid accidents.

CR 2.6 protocol of action in cases of emergency is adapted to the situation.

3 RP: Mounting brackets and panels, in his case with tracking, from drawings and technical specifications system, fulfilling the applicable law, for the installation of solar photovoltaic systems.

3.1 CR materials and equipment move and placed, with the means of transport and lifting that prevent the deterioration thereof.

CR 3.2 brackets, lugs and anchor points of panels and accessories are placed according to the specifications of project caring especially for possible holes of covers and replacement of existing elements.

CR 3.3 photovoltaic panels placed at the distance, inclination and interconnections laid down in the technical specifications.

CR 3.4 solar tracking systems are placed according to project specifications and installation manuals.

4 RP: Mount systems storage/accumulation, from plans and specifications, fulfilling the applicable regulations for installation of solar photovoltaic systems.

4.1 CR bedplates, brackets, frames, trays of storage/accumulation systems are installed according to the technical specifications of the project or technical report.

CR 4.2 storage/accumulation systems are installed and connected according to the technical specifications of the project or technical report checking the ventilation of the premises.

CR 4.3 systems regulation of load, control systems and electrical and electronic circuits are installed according to the technical specifications of the project or technical report.

RP 5: Assemble circuits and electrical equipment, from plans and specifications, fulfilling the applicable regulations for installation of solar photovoltaic systems.

CR 5.1 teams and mounted elements occur ensuring that they correspond to the characteristics of the installation to feed and function to play.

CR 5.2 pipes, electrical conductors, detectors elements, measurement and protection elements, tracking system and other components of the electrical installation are mounted according to the procedures and established media.

CR 5.3 pictures of control, automation and plant monitoring, are built and assembled in accordance with the applicable legislation.

CR 5.4 electrical connections between elements is carried out according to applicable technical and normative memory or project.

CR 5.5 control elements are programmed according to the relevant technical documentation and operating conditions.

RP 6: Assemble the conventional generators, wind systems, small power and other support systems, based on plans and specifications, fulfilling the applicable regulations for installation of solar photovoltaic systems.

6.1 CR teams and mounted elements occur ensuring that they correspond to the characteristics of the installation to feed and function to play.

CR 6.2 support system is installed according to the project or technical report.

CR 6.3 pipes, electric cables and interconnection of the installation are mounted according to the procedures and established media.

CR 6.4 pictures of control and automation of the installation of support, are built and assembled in accordance with the applicable legislation.

CR 6.5 electrical connections between elements are made according to project or applicable technical and normative memory.

CR 6.6 control elements are programmed according to the relevant technical documentation and operating conditions.

7 RP: Re-commissioning photovoltaic solar installations, drawings and technical specifications, checking its operation and compliance with the applicable rules.

CR 7.1 tests for insulation, Earth measurement, no shorts, production in panels, battery charging status, and other required prior to connection to network measures properly conducted according to established procedures.

CR 7.2 tracking system performance is verified by checking the response to changes of settings.

CR 7.3 almacenamiento-acumulacion system performance is verified by checking the response to load variations.

CR 7.4 operation of devices and systems of protection and security in photovoltaic solar installations is previously verified to commissioning.

CR 7.5 the connection network and/or support systems is following established protocols and procedures.

CR 7.6 installation operation is verified, checking data from reference parameters, adjusting them and looking for maximum energy efficiency.

CR 7.7 signage for the operation and safety of the installation is checked that it is established and complies with regulatory requirements.

CR 7.8 technical and administrative documentation of the process underway is prepared or completed.



Professional context: means of production:
Working equipment, tools and measuring devices: equipment for movements of materials, cranes, trocolas, hoists, winch, hydraulic jacks, digital meter, clamp meter. GPS, anemometer, wind vane, compass, topographic apparatus. Hand tools: saw arch, wrenches, Torque Wrenches, power tools, electric screwdriver, marking, maces, level, wire strippers, welder pliers for terminals, boring machine, riveting machine, grinder with cut-off for stone and metal, inclinometer, tool, bending machine and equipment of hoisting, among others. Low voltage electrical network Analyzer. Security equipments. Signalling systems. Components of the installations: photovoltaic panels, brackets, inverters, measuring equipment, control equipment.



Products and results: solar photovoltaic system mounted and connected to the system of transport and distribution of electrical energy. Checked and commissioning installation.



Used or generated information: projects, cutting and assembly drawings. Schemes and diagrams of principle. List of parts and components. Mounting, parts of work programs. Technical specifications. Tables, graphs and maps solar. Mapping traditional and digitalized. Catalogues. Service manuals and use. Mounting and operating instructions. Technical and administrative documentation of the implementation. Enterprise security plan. Internal rules of work. Legislation, security, solar photovoltaic systems and the company's electric power distribution and transport which will carry out the coupling of the photovoltaic plant.



Unit 3 competition: Maintain installations solar PHOTOVOLTAIC level: 2 code: UC0837_2 realizations professionals and completion criteria: RP 1: organize the work of maintenance of photovoltaic solar systems according to established procedures of intervention.

1.1 CR performance of maintenance and intervention sequence is determined using the plans and technical specifications of the equipment and installations, optimizing the process in terms of safety, method and time.

1.2 CR materials and other technical resources are selected depending on the action to perform.

CR 1.3 work area is prepared according to the requirements of the performance and the established work procedures.

RP 2: Implement the preventive, corrective and emergency measures established in the security plan, during the maintenance of solar photovoltaic systems, to prevent accidents and minimize risks.

CR 2.1 occupational risks are identified, evaluated and corrected, communicating, if any, to the person responsible for the security plan.

CR 2.2 means of protection against risks arising from maintenance, are selected and are used to prevent accidents and minimize the risk.

CR 2.3 work of their responsibility areas are kept in conditions of order and cleanliness to avoid accidents.

CR 2.4 the Protocol in cases of emergency is, adapting it to the situation.

3 RP: Do maneuver operations and preventative maintenance of the photovoltaic solar installations based on plans, standards and technical specifications, to operate within the parameters set, complying with the applicable rules.

CR 3.1 the maneuvers of the solar photovoltaic grid-connected operation are carried out according to the sequence set, optimizing the process in terms of safety, method and time.

CR 3.2 operation in isolated photovoltaic solar installations manoeuvres, including support systems, are performed according to the sequence set, optimizing the process in terms of safety, method and time.

CR 3.3 cleaning operations, tighten terminal block, check the earth connection and protection of photovoltaic diodes are made with the means and procedures.

CR 3.4 density checking and electrolytic liquid level, State of terminals and their connection, and grease accumulation systems operations are performed with the means and procedures.

3.5 CR tightness and absence of corrosion of equipment and installations are verified with the rated frequency.

CR 3.6 the State of electrical insulation, voltage drop and performance of the security features and protections of the equipment and installations are verified with the rated frequency.

CR 3.7 subsystems of wind support or conventional generators are verified with the rated frequency.

CR 3.8 orientation and tracking subsystems are verified by ensuring its operation within the established parameters.

CR 3.9 of the characteristic parameters of the installation measures are obtained and are compared with the reference.

CR 3.10 used equipment and tools are reviewed and maintained in a State of operation.

CR 3.11 the results of inspections and operations are included in the report.

4 RP: Performing the corrective maintenance on photovoltaic solar installations, using manual instructions and drawings, to restore functional conditions to set quality and safety.

CR 4.1 faults are detected, analysed and their causes are valued.

CR 4.2 performance before the fault sequence is set optimizing the process in terms of method and time, selecting equipment, tools, materials, supplies and auxiliary means.

CR 4.3 replacing the damaged element occurs in the sequence of the process of disassembly and Assembly established, within the time allotted, and checking its operation.

CR 4.4 deteriorated elements are analyzed by identifying the parts damaged and, where appropriate, repair is performed.

CR 4.5 modifications or extensions in the photovoltaic solar are made following the relevant instructions.

CR 4.6 installation functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 4.7 the parties and reports of repair is completed in accordance with established procedures.



Professional context: means of production: working equipment, tools and measuring devices: equipment for movements of materials, cranes, trocolas, hoists, winch, braces, hydraulic jacks, digital meter, clamp meter, speedometer, anemometer. Radiation meter. Compass, topographic apparatus. Battery tester. Hydrometer. Battery charger. Inclinometer. Tester of low voltage electrical networks. Verifier of solar photovoltaic systems. Hand tools: hacksaw, fixed, useful keys of marking, maces, level, wire strippers, soldering iron, scissors, pliers for terminals, boring machine, riveting machine and tooling of lifting. Security equipments. Components of the installations: photovoltaic panels, brackets, inverters, measuring equipment, equipment control, masts, gondolas, shovels, rotor, multipliers, batteries, conventional generators.



Products and results: installation of photovoltaic solar energy operated and maintained.



Used or generated information: projects, cutting and assembly drawings. Schemes and diagrams of principle. List of parts and components. Mounting, parts of work programs. Technical specifications. Map of solar toolpaths. Traditional and Digital Cartography catalogs. Service manuals and use. Mounting and operating instructions. Maintenance protocols. Maintenance parts. Databases. Computer programs. Parties and reports of inspection and repair. Internal rules of work. Applicable regulations of safety and solar photovoltaic systems.



TRAINING module 1: layout of installations solar PHOTOVOLTAIC level: 2 code: MF0835_2 associated with UC: rethink solar photovoltaic systems duration: 120 hours capabilities and evaluation criteria: C1: analyze the features, laws and relevant rules of the electricity, describing the functionality of the elements and present in the solar photovoltaic electric sets.

CE1.1 explain the laws and rules applicable to the analysis and resolution of electric circuits, identifying the magnitudes and characteristics of electricity units.

CE1.2 explain the processes of transformation, correction and accumulation of electricity.

CE1.3 describe the formation and operation of distribution lines and their protection systems.

CE1.4 describe the main applications of electricity, as well as the Constitution and operation of characteristic receptors and their regulatory systems.

CE1.5 explain the characteristics of the electric parameters measurement systems.

CE1.6 identify the graphic symbolism of wiring diagrams, interpreting the relationship between the partial schematics of the considered system.

CE1.7 describe the risk prevention and security measures related to the use of electricity.

C2: Analyze the functioning of the solar photovoltaic systems connected to the network to determine its characteristics and elements related to the layout and Assembly of the same.
CE2.1 reason electric general operation of a solar photovoltaic installation connected to network and systems of control based on the plans.

CE2.2 list, the electrical components that integrate solar photovoltaic installations connected to network, describing its function.

CE2.3 describing and reasoning function that perform solar tracking systems.

CE2.4 describe the fundamental requirements of the regulations applicable to such facilities.

C3: Analyze the functioning of isolated photovoltaic solar installations and their support systems to determine their characteristics and elements related to the layout and Assembly of the same.

CE3.1 reason electric general operation of an isolated photovoltaic solar and their systems of control based on the corresponding plans.

CE3.2 enumerate the electrical components that comprise the solar photovoltaic isolated, describing its function.

CE3.3 list support of isolated photovoltaic solar systems describing its operation.

CE3.4 describe the fundamental requirements of the regulations applicable to such facilities.

C4: Interpreting projects and technical brochures of solar photovoltaic grid-connected to perform stakeout operations and other related installation.

CE4.1 describe the different documents that make up a project, technical report of a solar photovoltaic installation connected to distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE4.2 represent schematics and sketch of a photovoltaic solar installation connected to the network and its components to rethink its mounting.

CE4.3 handle the graphical information of photovoltaic solar systems connected to network using systems of representation corresponding to specific design software by performing basic operations of copying or modification of data using standardized procedures.

CE4.4 rethink and marking the location of anchors, supports, ditches, pipes layout based on drawings and technical documentation.

CE4.5 describe the requirements of signage in the area of work according to the site.

CE4.6 in a so-called practical layout of a photovoltaic solar system connected to network with monitoring, a minimum PV power of 750w, corresponding drawings and technical documentation:-identify the components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose them: panels, brackets and anchors, system tracking, inverters, devices for measuring and protection.

-Reason electrical installation operation, describing the function, structure and composition of the parts that make it up.

-Perform the operations of setting out and mark the location of the components.

-Mark the area of work.

-Relate the composition and characteristics of the solar photovoltaic system with applicable regulatory requirements.

C5: Interpreting projects and technical brochures of solar photovoltaic isolated to perform stakeout operations and other installation-related support systems.

CE5.1 describe the documents that make up a project, technical report of a solar photovoltaic isolated distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE5.2 represent diagrams and sketches of a solar photovoltaic isolated and its components to rethink its mounting.

CE5.3 handle the graphical information of solar photovoltaic isolated made with corresponding to specific design software systems of representation, performing basic operations of copying or modification of data using standardized procedures.

CE5.4 rethink and marking the location of anchors, supports, ditches, pipes layout based on drawings and technical documentation.

CE5.5 describe the requirements of signage in the area of work according to the site.

CE5.6 in a so-called practical layout of a solar photovoltaic isolated energy support system, with a minimum photovoltaic power 250W, min. capacity 500 Ah and support through wind power system of minimum of 100 W and generator power, characterized by the planes and the corresponding technical documentation:-identify the components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose them: panels, brackets and anchors, batteries, small wind turbines, conventional generators, measurement and protection.

-Reason electrical installation operation, describing the function, structure and composition of the different parts that make it up.

-Perform the operations of setting out and mark the location of the components.

-Mark the area of work.

-Relate the composition and characteristics of the solar photovoltaic system with applicable regulatory requirements.

Skills whose acquisition must be completed in a real work environment: C4 with respect to CE4.6; C5 regarding CE5.6.

Other skills: be responsible for the work that develops.

Demonstrate a good make professional.

Propose alternatives with the aim of improving results.

Keep the work area with the degree of order and cleanliness required by the organization.

Participate and collaborate actively in the task force.

Interpret and execute work instructions.



Contents: 1. general electrical engineering related to photovoltaic solar installations nature of electricity. Properties and applications. Electric current. Electrical quantities. Magnetism and electromagnetism.

Electrical circuits. Structure and components. Symbols and graphical representation. Analysis of circuits. Protection systems. Batteries and accumulators. Classification, typology and characteristics.

Major electronic components. Typology and functional characteristics. Photovoltaic effect. Three-phase electrical systems. Static and rotating electric machines. Typology and characteristics.

Generators, transformers and motors. Load controllers. Investors.

Measures of electrical quantities. Procedures. Measuring instruments. Errors in measurement. Electrical safety.



2. general operation of photovoltaic solar systems overall performance and configuration of a solar photovoltaic installation connected to net.

Global operation and configuration of an isolated photovoltaic solar installation.

Storage and accumulation.

Global operation and configuration of an installation of small wind turbine, generator support.

Systems of protection and safety in the operation of the facilities.

Specification and description of equipment and components: panels, brackets, trackers and anchors, inverters, batteries, small wind turbines, conventional generators, equipment of regulation and control, measurement and protection devices.

Applicable regulations.



3. symbolic representation of solar photovoltaic system designing. Perspective. Electrical symbols.

Representation of electrical circuits.

Diagram and multicore.

Diagrams and functional symbolic diagrams.



4 projects and technical brochures of photovoltaic solar concept and types of projects and technical brochures. Memory, plans, budget, specifications and health and safety study.

Levels of situation. Detail and assembly drawings. Diagrams, flow charts, and schedules. Procedures and layout of facilities operations.

Computer aided design and representation. Assisted design programs. Display and interpretation of scanned drawings. Basic operations with graphics files.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the reconsideration of photovoltaic solar systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: Assembly of installations solar PHOTOVOLTAIC level: 2 code: MF0836_2 associated with the UC: mounted solar photovoltaic duration: 270 hours capabilities and evaluation criteria:
C1: Develop work plans for the mechanical and electrical Assembly of solar photovoltaic projects or technical brochures and established work procedures.

CE1.1 describe the techniques used in the processes of mechanical and electrical Assembly of solar photovoltaic: Assembly, screwed, threaded, riveted, anchor, holding, embedding, tended, flanged, Assembly, welding, wiring and adjustment.

CE1.2 identify the materials and tools used in the Assembly of photovoltaic solar processes.

CE1.3 relate the human resources involved in the stages of installation of solar photovoltaic systems.

CE1.4 organize Assembly from the point of view of safety, functionality and economy of time, means and cost.

CE1.5 represent the schemes of organization of work and time control in the mechanical and electrical Assembly of photovoltaic solar systems by means of diagrams and schedules.

CE1.6 in a practical course of installation of a photovoltaic solar system prefabricated, establish the sequence of work from drawings and technical documentation, optimizing the process in terms of safety, cost, method and time.

CE1.7 in a practical course of installation of a photovoltaic solar installation connected to net with tracking, 750 W minimum photovoltaic power system and characterized by levels of installation and commissioning manuals:-select the materials, tools and other technical resources to get the job done.

-Determine human resources in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the techniques of mechanical and electrical Assembly on the key points of the installation.

CE1.8 in a so-called practical installation of a photovoltaic solar insulated with support system, a minimum photovoltaic power of 750w, minimum of 350 Ah and minimum wind power capacity of 250 W and generator and characterized by levels of installation and commissioning manuals:-select the materials, tools and other technical resources to get the job done.

-Determine human resources in different phases.

-Determine the suitability of the components to the technical requirements and produce a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the techniques of mechanical and electrical Assembly on the key points of the installation.

C2: Analyze the measures of prevention and safety with respect to the mechanical and electrical Assembly of photovoltaic solar systems contained in the security of the companies of the sector plans.

CE2.1 assess occupational risks identified in the mechanical and electrical Assembly of photovoltaic solar installations.

CE2.2 propose corrective and preventive measures against the risks detected including selection and use of individual and collective protective equipment.

CE2.3 identify the requirements for protection against noise derived from wind power systems and conventional generators of isolated photovoltaic solar installations.

CE2.4 describe the requirements of work areas and procedures for the preparation, determining the corresponding specific risks and their corrective measures.

CE2.5 specify the aspects of safety regulations related to the mechanical and electrical Assembly of photovoltaic solar installations.

CE2.6 describe the protocols of action possible emergencies arising during the mechanical Assembly of photovoltaic solar installations.

CE2.7 describe the protocols of action possible emergencies arising in the Assembly of circuits and electrical equipment of solar photovoltaic systems.

CE2.8 detailing the requirements for first aid in case of accidents arising from the mechanical and electrical Assembly of photovoltaic solar installations.

CE2.9 in a so-called practical installation of a solar photovoltaic isolated 350 Ah and support through wind farm in minimum of 250 W and generator power system with support of a minimum 750 W, minimum capacity photovoltaic power system and characterized by levels of installation and commissioning manuals:-identify the mechanical risks related to the Assembly of structures and panels and to propose measures of control or correction.

-To identify occupational risks related to electrical equipment and circuits Assembly and propose measures of control or correction.

-Identify the mechanical risks related to installing wind systems and to propose measures of control or correction.

-Identify the chemical risks associated with installing wind systems of accumulation and to propose measures of control or correction.

-Identify the occupational hazards associated with conventional generators Assembly and propose measures of control or correction.

C3: Operations of assembling structures of solar installations from the technical documentation, using the tools, equipment and materials suitable for and acting under safety rules.

CE3.1 describe the methods and procedures for moving supports and structures safely, and outline the criteria for its ideal location.

CE3.2 describe the types of supports and usual anchors in photovoltaic solar installations, in his case with monitoring and support system and placement procedures respecting regulatory clearances.

CE3.3 describe the requirements of work areas and procedures for the preparation, by determining the relevant specific risks and their corrective measures.

CE3.4 place supports and anchorages of panels with tracking, accumulation and support systems systems systems.

CE3.5 in a practical course of installation of a photovoltaic solar installation connected to net with tracking, 750 W minimum photovoltaic power system and characterized by levels of installation and commissioning manuals:-prepare the work area in accordance with the requirements of the work itself.

-Adjust brackets and structures, placing them in the place that corresponds according to the task to perform.

-Check the marking on the ground and the reconsideration of the installation for the placement of brackets.

-Place brackets and anchors of panels and systems of monitoring on the basis of the foreseeable efforts to support.

C4: Perform mechanical and electrical Assembly and commissioning of photovoltaic solar systems from technical documentation, using the tools, equipment and materials suitable for and acting under safety rules.

CE4.1 photovoltaic panels with the guidance and established inclination.

CE4.2 mounted tracking systems.

CE4.3 the systems of accumulation.

CE4.4 the conventional generators and wind farm support systems.

CE4.5 describe the techniques and procedures of installation and connection of conduits and conductors.

CE4.6 explain the techniques of installation and connection of electrical protection and control panels and other electrical and electronic elements of the solar photovoltaic.

CE4.7 connect, prior preparation and placement, panels, systems of accumulation and support of the solar photovoltaic systems, electric elements operating with equipment and tools according to established procedures.

CE4.8 describe the operations of commissioning of photovoltaic solar installations.

CE4.9 in a practical course of installation of a photovoltaic solar installation connected to net with tracking, 750 W minimum photovoltaic power system and characterized by levels of installation and commissioning manuals:-prepare the work area in accordance with the requirements of the work itself.

-Move equipment and materials, placing them in the place that corresponds according to the task to perform.

-Fit panels with inclination required by geographical area and other installation requirements.

-Assemble and implement protections against corrosion.

-Install the electrical panels, pipes and necessary drivers, according to the electrotechnical regulation of low Tension and other applicable regulations.

-Connect to network.

-Check the adequacy of the operational parameters of reference.

-Leave the environment tidy and clean after the Assembly operations.

-Generate report on performed work, anomalies and incidents.

CE4.10 in a so-called practical installation of a solar photovoltaic isolated 350 Ah and support through wind farm in minimum of 250 W and generator power system with support of a minimum 750 W, minimum capacity photovoltaic power system and characterized by levels of installation and commissioning manuals:-prepare the work area in accordance with the requirements of the work itself.

-Move equipment and materials, placing them in your workplace.

-Install energy system respecting the same requirements.

-Place the according to inclination and installation requirements.

-Install the system of accumulation according to requirements.
-Assemble and implement protections against corrosion.

-Install the electrical panels, pipes and necessary drivers, according to applicable regulations.

-Make the implementation to installation service.

-Check the adequacy of the operational parameters of reference.

-Leave the work environment in optimal conditions of order and cleanliness after Assembly.

-Generate report on performed work, anomalies and incidents.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.6, CE1.7 and CE1.8; C2 regarding CE2.9; C3 on CE3.5; C4 on CE4.9 and CE4.10.

Other capabilities: complete the work according to criteria of fitness, speed, economy and efficiency.

Recognize the productive process of the organization.

Comply with the rules of production set by the organization.

Keep the work area with the degree of order and cleanliness required by the organization.

Participate and collaborate actively in the task force.

Interpret and execute work instructions.



Contents: 1. Assembly of panels from solar photovoltaic installations of electric power supply classification.

Measurement of electrical quantities.

Rush and pictures of general protection. Protections. Types and features.

Pipes and pipelines. Drivers.

Electrical and electronic equipment of protection, control and security.

Motorization and automatic solar tracking system.

Types of panels. Specifications.

Pooling and connection systems. Orientation and inclination. Shadows. Solar tracking.



2. fixing of photovoltaic solar systems civil engineering structures: displacement and hoisting equipment and materials. Types of efforts. Elementary calculation of efforts. Resistant structures.

Types. Materials. Supports and anchorages. Resistance of building elements. Waterproofing.

Architectural and urban integration. Aesthetics and technique.

Structures of tracking systems. Structures of systems of accumulation. Structures of wind power systems.

Benches for conventional generators.



3. mounting of circuits and electrical equipment of solar photovoltaic determination and selection of equipment and necessary elements for the Assembly based on the plans of the installation.

Organisation of the Assembly of circuits and electrical and electronic equipment of solar photovoltaic. Techniques and procedures.

Assembly of circuits and electrical equipment of solar photovoltaic. Assembly of circuits and electrical and electronic wind and generator support systems. Assembly of circuits and electrical and electronic systems of accumulation.

Interconnection of the different subsystems of the photovoltaic solar installations. Supplies, tools and means employed in the Assembly. Techniques of use.



4. quality quality photovoltaic solar installations in the mounting Assembly.

Technical requirements and quality control specifications.

Quality control of materials used in the Assembly.

Quality in Assembly operations.

Basic economic and strategic aspects of quality.

Technical documentation of the quality processes. Procedures manual.



5. safety in the installation of solar photovoltaic systems security plans in the installation of solar photovoltaic systems.

Prevention of occupational hazards in photovoltaic solar installations. Risks of tracking systems. Risks of systems of accumulation. Risks of wind farm support systems.

Areas of work. Safety signage. Emergencies. Evacuation. First aid.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the installation of photovoltaic solar systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: maintenance of installations solar PHOTOVOLTAIC level: 2 code: MF0837_2 associated with the UC: maintain solar photovoltaic systems duration: 60 hours capabilities and evaluation criteria: C1: analyze the general operation of the photovoltaic solar to develop the maintenance plan.

CE1.1 describe the performance of a photovoltaic solar system from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 identify the elements that must be made from a specific program of maintenance preventive maintenance in a plane of a solar photovoltaic.

CE1.3 reason the consequences, for a given installation, of the faults in their critical points.

CE1.4 in a practical course of maintenance of a photovoltaic solar installation connected to net with a minimum PV power of 750w tracking system, and characterized by the planes of the installation and commissioning and maintenance manuals:-develop the overall program of actions for maintenance.

-Determine the types of operations to be carried out.

-Determine the periodicity of operations to perform.

-Determine the times for each intervention.

-To determine the technical and human resources involved in the operations.

CE1.5 in a practical course of maintenance of a photovoltaic solar photovoltaic minimum power of 250 W, isolated minimum capacity of 500 Ah and support through wind power system of minimum power of 100 W and characterized by the planes of the installation and commissioning and maintenance manuals:-develop the overall program of actions for maintenance.

-Determine the types of operations to be carried out.

-Determine the periodicity of operations to perform.

-Determine the times for each intervention.

-To determine the technical and human resources involved in the operations.

C2: Analyze the measures of prevention, security and environmental protection with regard to the maintenance of solar photovoltaic contained in the security of the companies of the sector plans.

CE2.1 assess occupational risks identified in the maintenance of solar photovoltaic.

CE2.2 propose corrective and preventive measures against the risks detected including selection and proper use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements arising from the activities of maintenance of systems of accumulation of solar photovoltaic.

CE2.4 describe the requirements of work areas and procedures for the preparation, determining the corresponding specific risks and their corrective measures.

CE2.5 specify the aspects of safety regulations related to the maintenance of solar photovoltaic.

CE2.6 detail the protocols of action possible emergencies arising during the performances of maintenance of solar photovoltaic.

CE2.7 describe the requirements for first aid and transfer of injured in case of accidents arising from the maintenance of solar photovoltaic.

C3: Performing preventive maintenance of solar photovoltaic following procedures and specifications of the maintenance plan.

CE3.1 provide the scope and complexity of the activity, determining the consequences for users of the lack of supply or generation and organizing work to minimise these consequences.

CE3.2 manage, prepare and use materials, equipment and tools required to perform preventative maintenance tasks.

CE3.3 reason the need for preventive maintenance in panels, tracking systems, systems of accumulation, wind farm support and systems of conventional generators and other equipment and components of photovoltaic solar installations pursuant to an established method.

CE3.4 describe the procedures of each of the operations of preventive maintenance that should be performed on equipment and components of photovoltaic solar installations.

CE3.5 in a practical course of maintenance of a photovoltaic solar installation connected to net with a minimum PV power of 750w tracking system and characterized by the planes of the installation and commissioning and maintenance manuals:
-Identify the elements that preventive maintenance is required.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying relevant specific occupational hazards and corrective measures.

-Check general condition of supports, protections and insulating material.

-Perform the cleaning operations, tighten Terminal, checking the status of ground and diodes protect the panels.

-Check the State of electrical insulation, drop of tension and action of the elements of security and protection.

-Check the status of the subsystems of guidance and monitoring.

-Check the main variables of the system and compare the measurements obtained with those laid down in the technical specifications, optimizing performance with efficiency criteria, and verifying its operation is adjusted to the set parameters.

-Check and keep in operation the own equipment and tools used in maintenance.

-Complete review of performance.

CE3.6 in a so-called practical maintenance of a photovoltaic solar insulated with a minimum power 250W, min. capacity photovoltaic support system 500 Ah and support through wind farm in minimum of 100 W power system and characterized by levels of installation and commissioning and maintenance manuals:-identify the elements that preventive maintenance is required.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying relevant specific occupational hazards and corrective measures.

-Check general condition of supports, protections and insulating material.

-Perform the cleaning operations, tighten Terminal, checking the status of ground and diodes protect the panels.

-Check state, density and electrolytic liquid level, State of terminals and connection, as well as the lubrication of systems of accumulation.

-Check the State of electrical insulation, drop of tension and action of the elements of security and protection.

-Check the State of the controller and inverter.

-Check the condition of the subsystems of wind farm support and conventional generators.

-Check the main variables of the system and compare the measurements obtained with those laid down in the technical specifications, optimizing performance with efficiency criteria, and verifying its operation is adjusted to the set parameters.

-Check and keep in operation the own equipment and tools used in maintenance.

-Complete review of performance.

C4: Performing corrective maintenance of photovoltaic solar installations according to the established procedures for return to their State of operation within the established parameters.

CE4.1 diagnose the common faults that occur in the photovoltaic solar systems, determining the cause of them and their effects on the system.

CE4.2 describe the procedures of each corrective maintenance must be carried out on the plant components and computers.

CE4.3 describe the tools and ancillary equipment used in the corrective maintenance operations, reasoning the use and conservation of the same way.

CE4.4 in one or more practical cases of maintenance of solar photovoltaic in defective condition:-identify the possible faults and their causes.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying relevant specific occupational hazards and corrective measures.

-Describe the repair procedure, isolating the circuit or component if necessary.

-Replace the defective item.

-Connect the system.

-Check the functioning of the system, verifying that it conforms to the established parameters.

-Check and keep in operation the own equipment and tools used in maintenance.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with regard to CE1.4 and CE1.5; C3 on CE3.5 and CE3.6; C4 on CE4.4.

Other capabilities: show some autonomy in the resolution of small contingencies related to its activity.

Recognize the productive process of the organization.

Comply with the rules of production set by the organization.

Keep the work area with the degree of order and cleanliness required by the organization.

Interpret and execute work instructions.

Respect the procedures and internal rules of the organization.



Contents: 1. maintenance of solar photovoltaic general operation of a photovoltaic solar installation.

Procedures and operations to take action.

Checking and setting the parameters to set values.

Programs of maintenance of solar photovoltaic. Manuals. Projects. Inspection and verification of mechanical installations. Inspection and verification of electrical installations. Critical faults. With rules of application in the maintenance of solar photovoltaic.



2. preventive maintenance of solar photovoltaic program of preventive maintenance. Energy management program.

Monitoring of energy generated. Evaluation of performance.

Mechanical operations in the maintenance of facilities. Electric circuit operations. Equipment and tools.

Procedures for cleaning, greasing, filling of electrolytic fluids, for elements of the auxiliary facilities.



3. corrective maintenance of solar photovoltaic systems troubleshooting.

Procedures to electrically isolate the different components.

Methods for the repair of components of the facilities.

Disassembly and repair or replacement of electrical and mechanical elements.



4. quality in the maintenance of solar photovoltaic quality maintenance.

Technical requirements and quality control specifications.

Quality tools applied to the improvement of peacekeeping operations.

Technical documentation of the quality.

Reports and control parts. Maintenance manual.



5 maintenance safety security plans in the maintenance of solar photovoltaic.

Prevention of occupational hazards in the area of the maintenance of solar photovoltaic.

Media and safety equipment. Personal protective equipment. Use and maintenance.

Prevention and environmental protection.

Emergencies. Evacuation. First aid. Areas of work.

Safety signage. Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the maintenance of photovoltaic solar systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex VI professional qualification: Organization and control of the Assembly and maintenance of networks and facilities of water and sanitation professional family: energy and water level: 3 code: ENA262_3 general competence organize, develop and control projects of installation of water and sanitation networks, supervise the commissioning and organizing the maintenance according to the requirements of effectiveness, efficiency, quality of supply and safety complying with the applicable rules.



Units of competence UC0838_3: collaborate in the planning of the execution of works of networks and systems of supply and distribution of water and sanitation UC0839_3: control the development of network and systems of supply and distribution of water and sanitation UC0840_3: supervise the commissioning of networks and systems of supply and distribution of water and sanitation UC0841_3 : Organize the maintenance of installations of water supply and water distribution and sanitation environment professional scope professional
Develops his professional activity in the area of production dedicated to the Organization and control of the Assembly and maintenance of networks, and water and sanitation facilities, in entities of public or private nature, small, medium or large size companies, both on their own as alien, regardless of its legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the energy sector, sub-sector of uptake, transport, distribution, sanitation, purification and reuse of water, in productive activities is performed Assembly, exploitation and maintenance of collection, distribution of water and sanitation facilities.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Responsible for assembling networks of supply and distribution of water responsible for assembling networks and sanitation facilities responsible for maintenance of water networks responsible for maintenance of sanitation technicians training associate (480 hours) training modules MF0838_3 water distribution systems: networks and systems of supply and distribution of water and sanitation (150 hours) MF0839_3 : Development of network and systems of supply and distribution of water and sanitation (150 hours) MF0840_3: systems of operation of water and sanitation (60 hours) MF0841_3 networks: Organization of maintenance of distribution networks of water and sanitation (120 hours) unit of competition 1: collaborate in the planning of the execution of works of networks E facilities of supply and distribution of water and sanitation level : 3 code: UC0838_3 professional accomplishments and performance criteria: RP 1: interpret the project or technical report of Assembly of a network of supply and distribution of water and sanitation, to proceed to execution planning and the definition of the phases of work.

CR 1.1 memory project or work plan discussed in the planning process.

CR 1.2 topographical and site of the projected network features are interpreted based on the plans of the project.

CR 1.3 functional and auxiliary equipment of the projected network characteristics are analyzed from the drawings of the project.

CR 1.4 items related to the Organization and control of the implementation are identified from the documentation of the project or plan of work.

CR 1.5 computer applications used in the project planning of water and sanitation networks are used to access the information of the project.

2 RP: Collaborate in the preliminary definition of the phases of work, sourcing programme, implementation of the timetable and planning of resources, both material and human, involved in the implementation of the work.

2.1 CR sequencing and general organization of work is established from the project, carrying out a work plan that optimizes the process in terms of safety, method and time.

CR 2.2 schedules required for each of the phases of Assembly are carried out on the basis of the work plan.

CR 2.3 procurement plan is coordinating the plan of mounting with possibilities of provisioning and storage, and guaranteeing supply at the established time.

CR 2.4 the preliminary organization of human resources and means is set defining the functions of each operator or Guild and its correlation with the technical means programmed in each phase.

CR 2.5 software applications used in the project planning of water and sanitation networks are used for sequencing and organising the execution of the work.

3 RP: Arrange the layout of the work, both verification and contrast of the data in the field and their marking, and approach to the necessary modifications.

CR 3.1 possible dysfunction between the design of the installation and the own site is monitored, by adopting the relevant decisions.

3.2 CR locations and characteristics of anchorage, supports and connections of the different components and construction elements are monitored prior to installation.

CR 3.3 complementary schemes needed for the layout and Assembly of water distribution networks are, where required.

CR 3.4 marking the route of pipelines and other elements of the network is monitored, checking is done on the ground from the Setup project and taking into account the characteristics of the place and registering the possible affected services, in order to allow for its installation.

CR 3.5 signage of the area of work is monitored, making sure that it is done according to regulatory requirements.

4 RP: Collaborate in the management of the documentation and administrative procedures associated with conditions to services and third parties as well as the processing of permits.

CR 4.1 documentation related to the necessary official permits in the work is managed.

CR 4.2 documents project, symbolic diagrams, lists of materials, operation manuals and other technical documents are handled.

CR 4.3 the parties, delivery notes, quality checks and other administrative documents are handled.

RP 5: Verify the safety and health plan and plan implementation, control and monitoring, in the execution of the work, ensuring compliance with environmental requirements.

CR 5.1 the site safety plan is interpreted, collaborating in its development.

CR 5.2 the material resources needed for the development of the security plan are planned, according to the requirements of each stage.

CR 5.3 mounting the network or installation work is planned according to the requirements of the security plan.

CR 5.4 forecasting and planning of emergency plan is integrated into the planning of the work.

5.5 CR training or information needed to move the requirements of the security plan different operators under his command is designed.

CR 5.6 environmental conditions contrasted, setting the criteria for its minimization.



Professional context: means of production: drawing tools. Specific computer applications useful for marking. Picas, marking material. Security equipments. Surveying tools, cables, sheets detectors, gas detectors, detectors vehicles.



Products and results: interpreted and redesigned water distribution network facilities. Interpreted and redesigned network of sanitation facilities. Changes in order of water and sanitation networks. Sequencing and general organization of the work. Documentation of conditions to services and third-party and managed permissions processing. Safety and health plan implemented and controlled.



Used or generated information: projects, Assembly and detail drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work, delivery notes, invoices, orders and other administrative documents. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Safety and health in the implementation of the work plan. Documents of topography. Documentation of official permits. Internal rules of work. Applicable regulations.



Unit 2 competition: Control the development of works of networks and facilities of supply and distribution of water and sanitation level: 3 code: UC0839_3 realizations professionals and completion criteria: RP 1: organize the phases of implementation of the work of distribution of water and sanitation, according to the established schedule, controlling the process and performing at your level , the corresponding adaptations from contingencies that may arise.

CR 1.1 Organization of the work of the different parts of the work arises from the planning of Assembly of the network or installation of water and sanitation.

CR 1.2 coordinates the work of individuals and associations involved in the work, checking the programmed objectives and according to criteria of effectiveness, efficiency, quality and safety.

1.3 CR excavation, protection of slopes, the shoring, the saneos, the implementation of necessary drainage, preparation and leveling the sand bed and other operations in the ditches are monitored in accordance with the specifications of the project.

CR 1.4 preparation of points of placement of tubes heads, points of implantation of the knots and the establishment of the massifs of anchorage is inspected, checking that they are made according to project specifications.

CR 1.5 implementation of the laying of water supply lines is monitored in accordance with the specifications of the project.

CR 1.6 execution of the laying of the pipes of the drainage system is monitored in accordance with the specifications of the project.
CR 1.7 running the Assembly and connecting pipes is monitored according to the specifications of quality and security required.

1.8 CR location and position of the valves, suction cups, adjustment components and accessories installed is monitored, verified that it conforms to the specifications of the project.

CR 1.9 installation of flow meters, pressure switches, probes of level and other detectors of the variables of the system is monitored in accordance with the specifications of the project.

CR 1.10 protections against corrosion, oxidation and mechanical impacts and the thermal insulation of networks and elements are monitored in accordance with the specifications of the project.

CR 1.11 withdrawal of the lag, the placement of fill, your compaction and replenishment of surfaces are monitored in accordance with the specifications of the project.

RP 2: Organize the procurement and supply of materials to work according to procedures established in the company, controlling the process to ensure compliance with the applicable regulations.

CR 2.1 selection of the equipment, tools and other technical resources is monitored in each of the phases of Assembly of the installation.

CR 2.2 the supply of various materials with respect to their delivery times, terms of delivery, collection in storage and distribution management, coordinates, controls and monitors, in accordance with established regulations and specifications.

CR 2.3 displacement and location of the materials and equipment is managed according to the logistics of the project of the work, with the means of transport and lifting set and safe.

CR 2.4 tools, machinery and ancillary media are organized and maintained for the execution with safety and performance.

3 RP: Assist in the monitoring and control of the quality of the work according to procedures established in the company and ensuring compliance with the applicable regulations.

CR 3.1 plans quality management in all matters relating to the work is often done collaborating in its development.

3.2 CR information and necessary support in audits of quality of the work is managed.

CR 3.3 quality specifications of materials and other technical resources necessary for the work, are verified, checking that they comply with the requirements and the applicable regulations.

CR 3.4 technical specifications of quality in the execution of the installation of the network are controlled and monitored.

CR 3.5 takes samples and tests corresponding to the specifications of aggregates, concrete, compacting, evidence of leakage and breakage of pipes and other elements, are carried out in accordance with the technical requirements of the applicable regulations and safety.

4 RP: Organize the security plan and the development of the work, by controlling its execution in accordance with environmental regulations.

CR 4.1 professional risks of the work are identified and controlled.

CR 4.2 management, deployment and location of safety and hygiene of work infrastructures, develops, monitors and controls, verifying that it conforms to the applicable regulations.

CR 4.3 employment, operation, and State of conservation of the personal protection and safety equipment is monitored, verifying that they are in perfect condition for use.

CR 4.4 employment, operation and conservation status of machines, vehicles, tools and other technical means used in the work is controlled, verifying that they are in perfect condition for use.

CR 4.5 the implementation of site safety plan is monitored, audited constantly.

CR 4.6 emergency plan relating to the Assembly process of the network is managed, paralyzing work when security measures are not complied with, or there is a risk for people.

CR 4.7 environmental risks are evaluated and controlled to avoid or reduce them to the minimum possible levels, respecting, in any case, the applicable regulations.

RP 5: Support the management of the documentation related to the work processes ensuring compliance with rules of application and the organizational criteria established by the company.

CR 5.1 the parts of work, delivery notes, invoices, control for certificates and other administrative documents are organized and controlled during the Assembly process of the network.

CR 5.2 topography, settlement data and technical specifications documents are monitored and collected to form the documentary basis of the work.

CR 5.3 the documentation required before possible inspections is managed.

CR 5.4 documentation on the quality system is managed.



Professional context: means of production: shoring systems. Materials handling equipment. Unit acquisition and data logging; TPL, GPS, GIS. Specific computer applications. Security equipments. Material of signage, detectors, harnesses and equipment for personal protection, life lines and other equipment. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, Wells's record.



Products and results: phases of the installation of supply and distribution of water and sanitation work organized and supervised. Facilities and mounted water distribution networks. Facilities and sanitation networks mounted. Documentation related to the work managed processes.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work, delivery notes, invoices, orders and other administrative documents. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Safety and health in the Assembly plan. Documents of topography. Documentation of official permits. Internal rules of work. Applicable regulations.



UNIT of competency 3: Monitor the implementation in service of networks and facilities of supply and distribution of water and sanitation level: 3 code: UC0840_3 realizations professionals and completion criteria: RP 1: organize tests tightness, pressure, cleaning, disinfection, control boards and Visual inspections and with cameras, prior to starting up network controlling its application.

CR 1.1 the testing of tightness and pressure from the networks and facilities is organized and controlled according to regulatory procedures and standards of application.

CR 1.2 the realization of the cleaning and disinfection of water systems is organized and controlled according to regulatory procedures and standards of application.

1.3 CR visual inspection and with networks of supply and distribution of water and sanitation cameras is performed to detect possible anomalies.

RP 2: Assist in the monitoring and control of the various tests of mechanical, electric, remote control and remote control of parameters of pressure, flow, chlorine, dilution of water and sanitation facilities, prior to the implementation underway.

CR 2.1 elements of the networks and the supply and distribution of water and sanitation facilities are inspected visually detecting any faults.

CR 2.2 verification of the elements of the networks and facilities is controlled, checking that they comply with the specified parameters.

CR 2.3 functional tests of the operators in the networks and facilities elements, are organized and controlled according to established procedures.

CR 2.4 functional tests of the elements of control networks and installations, organized and monitored according to established procedures.

CR 2.5 functional tests of measurement and auxiliary elements of the networks are organized and controlled according to established procedures.

3 RP: Supervise the commissioning of the work according to the criteria of quality and safety set by the supplier company.

CR 3.1 commissioning of the network or facility controls and monitors checking that it conforms to the procedures established by the company.

CR 3.2 the criteria of quality and the fulfilment of the necessary environmental measures for the commissioning of the network or installation are controlled and monitored according to the regulations and to the quality requirements.

CR 3.3 security measures required for the commissioning of the network or installation are controlled and monitored, ensuring that they conform to standards.

CR 3.4 final finishing, the resolution of conditions, removal of machinery and infrastructure, cleaning, packaging, seals and other auction of work operations are controlled and monitored, ensuring they conform to the conditions laid down.

4 RP: Control the documentary archive of functional elements of the networks and facilities once the work, collecting documents relating to it.

CR 4.1 documentation related to the process of commissioning of water and sanitation facilities is managed.

4.2 CR manuals for operation and programming of the network of water supply and sanitation and the planes of the same are collected and controlled, correcting them if necessary.

CR 4.3 documentation manuals or specific information elements are collected and controlled.
CR 4.4 procedures for maintenance and control systems documentation is collected and controlling, correcting it in its case.



Professional context: means of production: tools and measuring tools. Hand tools: equipment for leak detection, visual inspection equipment, probes contact for level measurement, meter. Unit acquisition and data logging; TPL, GPS, GIS, communications systems. Pressure groups, pumps, water, balls of filling tanks, compressors. Security equipments. Material signage, safety equipment for electrical maneuvers, separators, circuits, detectors of gases. Rehabilitation technologies. Cleaning and sanitation vehicles. Inspection systems camera TV. detection by such, sensors in continuous systems. Factors of exploitation by zoning. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, Wells's record.



Products and results: facilities and distribution networks of water tested and in service. Facilities and sanitation networks tested and in service. Documentary archive of functional elements of the networks and facilities.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Instructions and Assembly program. Specific computer applications. Technical specifications. Catalogues. Service manuals and use. Manual operation and programming. Safety and health in the Assembly plan. Documents of topography. Documentation maintenance and monitoring procedures. Parts of the work, delivery notes, invoices, orders and other administrative documents. Documentation of official permits. Internal rules of work. Applicable regulations.



Unit 4 competition: Organize the maintenance of facilities of supply and distribution of water and sanitation level: 3 code: UC0841_3 realizations professionals and completion criteria: RP 1: organize the different maneuvers in networks and facilities, controlling its execution, for the optimization of its operation.

1.1 CR signals, graphic and data obtained using the systems of remote control, remote, GIS, computer applications, elements of detection, user controls for cameras and other tools of measurement and management, are interpreted to optimize the operation of the network.

CR 1.2 different types of maneuvers in the network are determined, reporting and controlling its execution.

CR 1.3 manoeuvres, its process of implementation and its consequences are controlled and monitored, ensuring that they conform to the established determinations.

CR 1.4 safety measures required in the maneuvers are controlled and monitored, making sure that they conform to the rules laid down.

CR 1.5 maneuver results are analyzed, drawing conclusions on the optimization of the exploitation of networks and reporting to the personnel involved.

2 RP: Collaborate on the development, improvement and implementation of the plans of maintenance of water and sanitation facilities and networks.

CR 2.1 the technical information provided by the manufacturers of equipment and installations for water and sanitation networks is collected, using it in the development of maintenance programs.

2.2 CR company maintenance manuals, in line with the regulations, prepare and keep up to date.

CR 2.3 the definition of tasks, procedures and methods of intervention and removal/installation, ranges of check, time and human resources and materials necessary for their implementation in the period and expected cost is checked, ensuring that they are contained in the installation maintenance program.

CR 2.4 quality control criteria are established for different phases in which the maintenance is organized.

CR 2.5 the critical points of the networks and facilities involving increased risk of lack of supply or modification of its normal values, are considered in the development of maintenance programs.

CR 2.6 established maintenance programs are verified, ensuring that they optimize the resources, determine the needs for external support and guarantee compliance with production targets.

CR 2.7 the procedures used in the preventive and corrective maintenance update, with the frequency stipulated, by incorporating the identified improvements.

CR 2.8 is the continuous improvement of the management plans of the maintenance, testing of new techniques, the participation in the process of new products used in networks and installations according, and oversees in partnership with upper level staff.

3 RP: Organize the processes and procedures for preventive and corrective maintenance of networks, and water and sanitation facilities, supervising them for your application.

CR 3.1 maintenance and repair of the installations is organised and monitored using technical and administrative documents received and generated.

CR 3.2 specifications of materials and equipment used in the maintenance of networks are made for the management of its acquisition.

CR 3.3 collection and distribution of stocks of materials, through the process of warehouse management, is organized and controlled under premises of effectiveness, efficiency and quality.

CR 3.4 human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the various types of maintenance, are coordinated and controlled under premises of effectiveness, efficiency and quality.

CR 3.5 review processes of deposits, bulges, spillways, boxes and log wells, valves, control systems and other items subject to review campaigns, organize and control in order to get most of the maintenance is preventative.

CR 3.6 the corrective measures when there are deviations in relation to the efficient operation of the network or installation are determined and are given the appropriate instructions for its implementation.

CR 3.7 maintenance tracking is done by controlling the quality of implementation and costs, obtaining indicators of control needed to establish comparisons that shape the lines of action most suitable and solving contingencies with maximum efficiency, fulfilling the programmed objectives.

CR 3.8 data modifications by works or revisions are controlled, compile them to maintain up-to-date databases and information systems.

CR 3.9 attention to notices and claims issues, power outages, request for work permits and other issues arising from the service provided and directly related services and customers affected by the performance of the maintenance are managed with efficiency and quality.

4 RP: Manage the maintenance of networks and water and sanitation facilities and apply techniques of diagnosis of faults and sector computer and telematic systems.

CR 4.1 media and leak detection techniques are applied, auditing them at the stipulated intervals.

CR 4.2 operating parameters of networks and facilities, their slogan, graphs, alarm systems and other variables values, are monitored and interpreted, getting awareness, effectiveness and efficiency in solving problems and improvements of performance analysis.

CR 4.3 the tabs of the periodic maintenance of the various elements are managed, developing the historical database, using geographic information systems.

CR 4.4 types of maintenance are controlled, making its monitoring, using specific software applications to do so.

CR 4.5 maintenance is managed, establishing the needs of human resources required in different phases and their roles, performing in the shortest possible time, effectively and using appropriate communication technologies.

CR 4.6 internal States of the pipes are monitored by means of television systems in closed circuit, detecting and noting deficiencies and applying media for its resolution.

RP 5: Organize the rules and measures of prevention of risks, safety, health and environmental maintenance of networks and systems of supply and distribution of water and sanitation, to monitor its implementation.

CR 5.1 identify occupational risks resulting from the intervention of maintenance and control.

CR 5.2 safety and hygiene of the network infrastructures are managed, developing your deployment and location, verifying that it conforms to the applicable regulations.

CR 5.3 personal protection and safety equipment used in the maintenance work are monitored by checking its operation and State of conservation.

CR 5.4 employment, performance and condition of machinery, vehicles, tools and other equipment used in the work, is monitored from the point of view of safety.

CR 5.5 the implementation of the plan of work safety, is monitored, auditing them at the stipulated intervals.

CR 5.6 emergency plan relating to the Assembly process of the network is managed.

CR 5.7 environmental risks are evaluated and controlled to avoid or reduce them at all times.
6 RP: Controlling documentation related to the processes of exploitation and maintenance of supply and distribution of water and sanitation facilities and networks, to monitor their activity.

CR 6.1 the parties of labor, delivery notes, invoices, orders and other administrative documents are organized, controlling them in the maintenance process.

CR 6.2 the demands of customers are recorded, convey and serve promptly.

CR 6.3 administrative procedures and the quality of the maintenance management systems are applied, adjusting them to established procedures and applicable regulations, and supervising them in their execution.

CR 6.4 inventories are reviewed, updated and managed, by controlling the information related to the high, low, and repair.

CR 6.5 maintenance of the fleets, tools, machinery, communications systems and other equipment is controlled, checking that it has carried out in accordance with technical requirements.

CR 6.6 management systems used in the processes of exploitation and maintenance of networks are monitored, verifying that its operation conforms to the set parameters.



Professional context: means of production: shoring systems. Materials handling equipment, scaffolding; winch. Tools and measuring tools. Specific computer applications. Scada applications. Unit acquisition and data logging; TPL, GPS, GIS. Programmable controllers and remote management systems. Rehabilitation technologies. Cleaning and sanitation vehicles. Inspection systems camera TV. detection by such - sensors in continuous systems. Factors of exploitation by zoning. The plant components: pipes, deposits, pumps, circulators, valves, dilators, suction cups, traps, hydrant, hydrants, boxes, log wells, Wells boss, cameras of shock, siphons, sinks.



Products and results: developed and updated facilities maintenance plans. Installation of supply and distribution of water and sanitation maintained and running. Installation of supply and distribution of water and sanitation repaired and rehabilitated. Documented maintenance operations.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Programs and maintenance procedures. Technical specifications. Catalogs, manuals of use and service. Operating instructions. Databases. Historical maintenance. Specific computer applications. Health and safety plan. Parts of the work, delivery notes, invoices, orders and other administrative documents. Inventory. Internal rules of work. Applicable regulations.



TRAINING module 1: networks and facilities of supply and distribution of water and sanitation level: 3 code: MF0838_3 associated with UC: collaborate in the planning of the execution of works of networks and systems of supply and distribution of water and sanitation duration: 150 hours capabilities and evaluation criteria: C1: understanding of the supply and water distribution networks identifying characteristics and functional parameters, to plan his execution.

CE1.1 describe the general hydraulic operation of a distribution network of water and their systems of control based on the corresponding plans.

CE1.2 list the components that integrate water distribution networks, describing its functions and establishing its limits and possibilities of use.

CE1.3 describe the requirements of regulations applicable to such facilities.

CE1.4 perform technical calculations to assess the parameters of operation of these facilities.

C2: Understanding of sanitation networks identifying characteristics and functional parameters, to plan his execution.

CE2.1 describe the general hydraulic operation of a network of sanitation and its systems of control based on the corresponding plans.

CE2.2 enumerate the components that integrate sanitation networks, describing its functions and establishing its limits and possibilities of use.

CE2.3 describe the requirements of regulations applicable to such facilities.

CE2.4 perform technical calculations to assess the parameters of operation of these facilities.

C3: Interpret construction projects of networks and supply and distribution of water and sanitation facilities for the required information prior to planning them.

CE3.1 describe the documents that make up a project, technical report, or plan of installation of a network of water and sanitation in order to plan his execution.

CE3.2 represent, manually or with specific applications of design, diagrams of principle, sketches and isometric diagrams of a network of water and sanitation and distribution of its components to facilitate mounting.

CE3.3 determine the installation parameters from reforms of distribution networks of water and sanitation actions which joins new sections or modification of the existing ones according to the corresponding projects or technical reports.

CE3.4 in a practical course of collaboration in the planning of the implementation of network and supply and distribution of water and sanitation facilities, in a network based on the plans and the relevant technical documentation:-identify the components of the network and specify the characteristics of each of the elements that compose them: pipes, pressure groups bilge pumps, water tanks, filling balls, deposits, flowmeters, valves, suction cups, sinks, records, siphons and adjustment components.

-Analyze the hydraulic operation of the system, describing the function, structure and composition of the different parts comprising it, calculating operating parameters.

-Carry out schemes and supplementary plans derived from the need for greater detail or the setting out of the works.

-Design work area signage needs.

-Relate the composition and characteristics of the projected network or, where appropriate, modified, with the regulatory requirements that are applicable.

C4: Develop work plans for the installation of networks and systems of supply and distribution of water and sanitation in accordance with the corresponding project and established procedures.

CE4.1 set sequence and general organization of the work, optimizing the process in terms of safety, method and time.

CE4.2 perform the necessary schedules and integrate the needs of human resources that are required in each of the phases in the same.

CE4.3 define the duties of persons involved in the Assembly of a specific network of water and sanitation where there is civil works, mounting of pipes and ancillaries, and implementation in service.

CE4.4 in one or more practical cases of collaboration in the planning of the execution of works of networks and systems of supply and distribution of water and sanitation, in mounting projects containing several sectors with pipes of different diameters and different elements:-design the sequence and phases of the work, analyzing different possibilities.

-Establish the needs of the human resources required in different phases and their functions.

-Use specific software applications in support of the project planning of networks.

C5: Adapt work plans that were necessary when the layout of the work of a network or installation of supply and distribution of water or sanitation does not conform to the corresponding project.

CE5.1 identify and evaluate the adaptation of the network to the project, overseeing that location, marking, and connection of pipes, manholes, valves, siphons, control panels and other elements of the network conform to the specifications of the project.

CE5.2 perform symbolic diagrams, sketches of detail and complementary to the project plans that are necessary in the process of rethinking.

CE5.3 consider the work and determine the services that may be affected and its scope, analyzing in detail, among others, the consequences for the ro-ro traffic, pedestrian access, security in the supply of water, gas, electricity and telecommunications, managing the necessary measures so that the conditions are minimal.

C6: Determine the needs of provisioning of resources from the interpretation of network projects and supply and distribution of water and sanitation facilities by filling in documentation and initial permissions of the work, within the framework of its competences.

CE6.1 identify the needs of supply from the project, planning the supplies within the framework of the system used for the management of stocks.

CE6.2 define documentation related to official permits to carry out the work.

CE6.3 complete and process technical and administrative documents required for obtaining permits.

C7: Define prevention measures and safety with respect to the installation of supply and distribution of water and sanitation facilities and networks, analyzing the applicable regulations.
CE7.1 identify and evaluate occupational hazards present in the Assembly of distribution of water and sanitation networks.

CE7.2 collaborate on the design of safety manuals, proposing improvements and preventive and corrective measures to the detected risks.

CE7.3 technically justify the measures of prevention and security in networks based on the typology of risks mount.

CE7.4 design requirements of signage in the area of work according to the site.

CE7.5 references normative safety related to the Assembly of distribution of water and sanitation networks describe and interpret the protocols of action possible emergencies arising during the work.

CE7.6 designing the training required by the erection personnel on prevention of risks and emergencies.

CE7.7 in a practical course of collaboration in the planning of the execution of works of networks and systems of supply and distribution of water and sanitation, on the approach of the security plan of a work from drawings and technical documentation:-identify the associated risks, determining the type and level of the same.

-Select, justifying it, signaling of the work system.

-Describe the necessary personal protective equipment.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.4; C4 on CE4.4; C5 CE5.1 and CE5.3; C7 with respect to CE7.7.

Other skills: be responsible for the work that develops, fulfilling the objectives and deadlines.

Participate and collaborate actively in the task force.

Ensure safety in the work.

Propose alternatives with the aim of improving results.

Interpret and execute work instructions.

Demonstrate flexibility to understand changes.



Contents: 1. supply and integral water cycle water distribution systems. Efficient management and water saving.

Physics of fluids applied to supply and water distribution networks.

Types and materials supply and water supply networks. Classification. Design of supply flows. Catchment systems, pumps and tanks. Basic calculations.

Installation configuration. Parties and constituents. Pipes. Methods of calculation.

Irrigation and fire-fighting facilities. Basic calculations. Operation and specifications of pumps, valves, suction cups, elements of regulation. Special types of valves: integrated, multivalvulida, altimetric, regulatory and other special types of gate valves and automatic.

Regulation of water supply facilities regulation of safety and environment, among others.



2. the cycle of the water and its sanitation sanitation systems.

Local networks. Types and materials of networks. Classification. Sewerage. Renovation of rainwater. Evacuation systems and sewage networks. Releases to collectors. Basic calculations.

Sanitation pipes. Methods of calculation. Installation configuration. Parties and constituents. Features and specifications of components and equipment: pumps, valves, pipes, sinks, collectors, manholes and wells of registration, siphons and spillways. Procedures and layout of facilities operations. Additional calculations.

With rules of sanitation facilities regulation of safety and environment, among others.



3. projects of facilities of water supply and sanitation concept and types of projects. Memory, plans, budget and specifications. Development.

Procedures and layout of facilities operations. Additional calculations.

Procurement program.

Administrative permissions work. Levels of situation. Detail and assembly drawings.

Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules.

Display and interpretation of scanned drawings. Basic operations with graphics files. Security plan.



4 Organization and planning of works of water supply and sanitation organization in the execution of a work. Methods of work.

Documentation of the materials. Analysis of machinery and equipment used in works. Conditions to buildings and existing services.

Planning of works. Planning systems. Planning control. Control systems. Planning and computer-assisted control.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to collaboration in the planning of the execution of works of networks and systems of supply and distribution of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: development of works of networks and facilities of supply and distribution of water and sanitation level: 3 code: MF0839_3 associated with UC: control the development of network and systems of supply and distribution of water and sanitation duration: 150 hours capabilities and evaluation criteria: C1: analyze the planning of the installation of supply and distribution of water and sanitation facilities and networks developing detailed work programmes for each phase of implementation.

CE1.1 interpret the planning documentation and Assembly of the work program, determining the different phases.

CE1.2 define the critical points in the coordination of the work of the different guilds.

CE1.3 detailing the work plan and schedule of civil works.

CE1.4 carry out the work plan and timetable for laying and connection of pipes and placement of valves and other elements of the network.

CE1.5 carry out the work plan and timetable for the stages of finishing, filling, compacting, cleaning and disinfection.

C2: Control phases of execution of a work of installation of networks and systems of supply and distribution of water and sanitation, performing the corresponding adaptations from contingencies that may arise.

CE2.1 monitor excavation, protection of slopes, the shoring, the saneos, the implementation of necessary drainage, preparation and leveling bed of sand and other operations, for which are carried out according to the specifications of the project.

CE2.2 check the preparation of points of placement of the heads of the tubes, implementation of knots and the establishment of the massifs of anchor points, that are carried out according to the specifications of the project.

CE2.3 supervise the enforcement of the laying of water supply lines.

CE2.4 check the workmanship of the laying of the pipes of the drainage system.

CE2.5 Verify that the execution of the Assembly and connecting pipes is carried out according to the specifications of quality and security required.

CE2.6 control the location and position of valves, suction cups, adjustment components and accessories installed, so that they conform to the specifications of the project.

CE2.7 perform symbolic diagrams, sketches of detail and complementary to the project plans that are necessary to make adjustments to the appearance of possible contingencies.

C3: Verify requirements and the factors that influence the quality of the installation of a network of water supply and sanitation and water distribution.

CE3.1 define the constructive quality criteria in the realization of ditches and support and placement of pipes, valuing the determinants.

CE3.2 define the quality criteria in the connection of pipes and registration systems, assessing the determinants.

CE3.3 define the quality criteria in the placement of elements of control, measurement and control, assessing the determinants.

CE3.4 define the quality criteria in the automation of networks, evaluating the determinants.

CE3.5 define the quality criteria in filling and compaction of ditches and general of the work.

CE3.6 analyze and develop tests and tests on site for the control of quality of materials and construction elements of the networks.

C4: Identify and complete technical and administrative documentation related to the control of the execution of the work.

CE4.1 describe the documents that make up a project, technical report, or plan of installation of a network of supply and distribution of water and sanitation in order to organize the Assembly.

CE4.2 documenting the needs of procurement of materials, equipment and machinery necessary for the realization of each of the parts of a work.
CE4.3 interpret documentation deadlines, place of delivery and terms of delivery of materials and equipment required for the execution of the work.

CE4.4 complete, where appropriate, the administrative documentation related to the work.

CE4.5 use specific software applications for the monitoring and control of the work.

C5: Establish measures of prevention, security and environmental protection necessary in the execution of works of supply and distribution of water and sanitation from the applicable regulations.

CE5.1 identify and evaluate most common occupational hazards present in earth-moving works, proposing corrective measures for their elimination or control.

CE5.2 identify and evaluate specific occupational risks related to the implementation of pits and ditches, proposing corrective measures for their elimination or control.

CE5.3 identify and evaluate specific occupational risks related to work in Wells septic, ventilated or blind, proposing corrective measures for their elimination or control.

CE5.4 identify and evaluate most common occupational hazards present in the handling of tools and portable equipment used in the works, proposing corrective measures for their elimination or control.

CE5.5 identify and evaluate occupational hazards related to the use of pressure groups, proposing corrective measures for their elimination or control.

CE5.6 identify and evaluate occupational hazards related to the use of lifting systems and other techniques of displacement of loads used in works, proposing corrective measures for their elimination or control.

CE5.7 identify the environmental protection requirements derived from the actions of installation of distribution networks of water and sanitation.

CE5.8 describe the requirements of signalling of work areas and procedures for the preparation, determining the corresponding specific risks and their corrective measures.

CE5.9 determine the protocols of action, including first aid, possible emergencies arising during the Assembly of distribution of water and sanitation networks.

Skills whose acquisition must be completed in a real work environment: full C2.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Participate and collaborate actively in the task force.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.

Propose alternatives with the aim of improving results.



Contents: 1. execution of supply and distribution of water supply civil work and distribution of water. Graphic elements of representation.

Surveying and marking. Rethinking of the civil work in sourcing and distribution of water.

Water harvesting. Quality and water treatment.

Types of supply, water supply, and performance criteria.

Materials and supply pipes construction criteria.

Elements of a water distribution network: general purpose, check valves, reducing valves, spools, suction cups, hydrants and hydrants valves.

Anchors and manholes. Rush of water supply.

Quality in the Assembly. Mounting by means of computer control.

Applicable regulations.



2. performance of works of sanitation civil works in networks and sanitation facilities. Graphic elements of representation.

Surveying and marking. Rethinking of the civil work in sanitation.

Types of sanitation networks and performance criteria. Releases to collectors.

Materials and construction approaches of sanitation pipes.

Specific elements of a network of sanitation: Wells, Wells's boss, download cameras, gates, siphons and sinks. Rush of sanitation.

Quality in the Assembly. Mounting by means of computer control.

Applicable regulations.



3. Automation and control networks of water supply and sanitation regulation and automation of hydraulic systems. Measurement and instrumentation.

Local control of hydraulic systems. Control of water distribution systems.

Programmable controllers and remote management systems. Geographic information systems.



4. the work safety measures General safety systems. Applicable regulations.

The security management and risk control in civil works with earthworks.

The security management and risk control in the installation of water and sanitation networks.

Signalling systems.

Emergencies.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the control of the development of networks and systems of supply and distribution of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: systems of implementation in service of networks of water and sanitation level: 3 code: MF0840_3 associated with UC: supervise the commissioning of networks and systems of supply and distribution of water and sanitation duration: 60 hours capabilities and evaluation criteria: C1: describe the checks and tests that must be subject to networks and supply and distribution of water and sanitation facilities prior to their commissioning organizing them to ensure their functionality.

CE1.1 relate the Visual checks and functional tests that require the works of sanitation and water distribution.

CE1.2 justify and define test necessary prior to the commissioning of the network, by establishing relationships with application regulations.

CE1.3 sequencing tests of tightness and pressure, detailing the procedures and equipment needed to make them.

CE1.4 detail cleaning and disinfection of installation requirements, as well as the factors affecting, reasoning the sanitation measures necessary, prior to commissioning.

C2: Describe the procedures to carry out the implementation in networks and facilities of supply and distribution of water and sanitation, establishing its sequence and complying with the demands of quality and safety.

CE2.1 in one or more practical cases of supervision of commissioning of installations of water supply and distribution of water and sanitation, in an installation made up of a system of pumping, tanks, pipes with different materials, different types of valves and a system of remote control of devices and networks:-define the Visual inspections to be undertaken, including those made through TV establishing its sequence and checking its application.

-Describe the procedures and monitor necessary pressure testing and the Organization of them, detailing functions and operations of each person involved.

-Establish and apply criteria that guarantee the satisfactory of each of the tests.

-Enumerate and classify the equipment and tools needed for each test.

CE2.2 in one or several practical cases of supervision of commissioning of networks and systems of supply and distribution of water and sanitation, in a horizontal rain and faecal sewerage network, made up of wells and pipes with different materials:-define the Visual inspections to be undertaken, including those made through TV, establishing its sequence and checking its application.

-Describe the procedures and monitor necessary pressure testing and the Organization of them, detailing functions and operations of each person involved.

-Establish and apply criteria that guarantee the satisfactory of each of the tests.

-Enumerate and classify the equipment and tools needed for each test.

CE2.2 in one or several practical cases of supervision of commissioning of networks and systems of supply and distribution of water and sanitation, in a horizontal rain and faecal sewerage network, made up of wells and pipes with different materials:-define the Visual inspections to be undertaken, including those made through TV, establishing its sequence and checking its application.
-Describe the procedures and monitor necessary pressure testing and the Organization of them, detailing functions and operations of each person involved.

-Establish and apply criteria that guarantee the satisfactory of each of the tests.

-Enumerate and classify the equipment and tools needed for each test.

CE2.3 define different security risks in the realization of tests for the start-up of a network of distribution of water and sanitation, and propose preventive measures.

C3: Analyze and organize the necessary documentary archive for the implementation in service and delivery of the work.

CE3.1 describe the necessary technical and administrative documents in the commissioning of the water supply or sanitation work.

CE3.2 describe procedures and management procedures to develop for the implementation in service and delivery of the work.

CE3.3 analyze operation, maintenance, and operating manuals by incorporating, where appropriate, the modifications arising from contingencies arising during the work or the putting into service of the same.

CE3.4 prepare the full dossier of the work of sanitation or water supply in established format and support.

Skills whose acquisition must be completed in a real work environment: C2 respect for CE2.1 and CE2.2.

Other capabilities: participate and cooperate actively in the task force.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.

Responsible for the work developed and the fulfilment of the objectives.

Respect the procedures and internal rules of the organization.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Interpret and execute work instructions.



Contents: 1. commissioning of works of water supply and sanitation hydraulic operations prior to the commissioning of networks. Pressure tests. Mechanical resistance of pipes. Basic calculations. Water hammer arrestor. Testing, testing and commissioning of technical elements, equipment and instruments.

Protocols performance and commissioning of works of modification of networks in operation.

Applicable regulations.



2 documentation and acceptance of works acceptance works of supply. Reception of works of sanitation. Documents associated with the tests.

Operation and maintenance manuals. Plans of settlement.

Specific computer applications.



3. safety and hygiene in the commissioning of works determination of risks in the commissioning of water networks. Prevention. Determination of risk in the start-up of sewage.

Prevention. Cleaning and disinfection. Potability. Chemical and biological parameters. Immissions, spills and odors.

Management of emergencies. Coordination and first aid.

Systems of environmental protection tests. Preparation of reports.

Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the supervision of the putting into service of networks and systems of supply and distribution of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: Organization of the maintenance of networks of distribution of water and sanitation level: 3 code: MF0841_3 associated with UC: organize the maintenance of supply and distribution of water and sanitation duration: 120 hours capabilities and evaluation criteria: C1: analyze the general operation of the networks and the supply and distribution of water and sanitation facilities to establish the maintenance plan.

CE1.1 describe the operation of a network of supply and distribution of water from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 describe the operation of a network of sanitation sewage and a network of rainwater from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.3 point out the elements of a network on which can be operated manually or automatically and the consequences of his manipulation.

CE1.4 identify the elements that must be made from a specific program of maintenance preventive maintenance at a level of a network.

CE1.5 determine the critical points where faults can occur with important consequences for users, the environment and own water supply or sanitation service quality.

C2: Make proposals for organization of the preventive and corrective maintenance to supply and distribution of water and sanitation facilities and networks.

CE2.1 interpret technical information from manufacturers of equipment and facilities, transferring the data necessary to the maintenance of the network of supply or sanitation program.

CE2.2 analyze maintenance programmes, ensuring that it contains the definition of tasks, procedures and methods of intervention, checking ranges, time and material and human resources required, keeping them updated and improving them, for your application.

CE2.3 define the quality criteria in the most frequent and important preventive or corrective maintenance interventions.

CE2.4 analyze different models of organization of the preventive and corrective maintenance in water supply networks, assessing the advantages and disadvantages from the points of view of the quality, cost and service security.

CE2.5 analyze different models of organization of the preventive and corrective maintenance of sanitation networks, assessing the advantages and disadvantages from the points of view of the quality, cost and service security.

CE2.6 establish the technical and economic criteria for the maintenance, rehabilitation and renovation of networks.

CE2.7 explain the functioning of the management of the acquisition of spare parts and their relationship with the Organization of the store, determining the criteria for the purchase of stocks.

CE2.8 consider the Organization of preventive maintenance periods, operations and review times for each of the elements or critical points, establishing the needs of the human resources required, in a network of water supply with deposits, bulges, spillways, boxes and log wells, valves, control systems and other elements.

CE2.9 consider the Organization of preventive maintenance periods, operations and review times for each of the elements or critical points, establishing the needs of the human resources required, in a network of sanitation with deposits, siphons, manholes and wells of registration, valves, control systems and other elements.

CE2.10 analyze the Organization and procedures of the maintenance system from the point of view of prevention of risks, safety and hygiene.

CE2.11 in one or more practical cases of the maintenance organization of supply and distribution facilities for water and sanitation, with preventive and corrective maintenance to risks of different types:-identify occupational risks, cataloging them according to their characteristics.

-Consider the Organization of signaling in the work of maintenance systems.

-To determine environmental risks and their control.

-Establish the needs of the human resources required in different phases and their functions.

-Describe and assess the emergency plan, determining emergency situations, phases, communication systems, staff and performance institutions.

-To develop, at its level, documentation and reports requiring a certain contingency.

C3: Analyze and apply techniques of diagnosis of faults and systems automation and improving the performance of supply and distribution of water and sanitation facilities.

CE3.1 describe the different media and techniques for detecting leaks in networks, applying them to practical situations.

The CE3.2 is determining the objectives and methods in conducting audits of water distribution networks.

CE3.3 interpret the instruments and record variables of network systems, assessing the correlation between the actual and setpoint values.

CE3.4 complete control of maintenance and the historical data sheets using geographical information systems.
CE3.5 organize and analyze databases of water and sanitation networks, controlling the performance of the facilities.

CE3.6 in one or several cases of organisation of the maintenance of supply and distribution of water and sanitation facilities, interpret historical failure of a network of water supply or sanitation and propose improvements in the Organization of preventive maintenance to optimize service and the own work of maintenance.

CE3.7 describing systems of remote control and telecommunications in an installation or required in the procedures set out in the management of the maintenance.

C4: Describe the processes and to complete the documentation related to the operation and maintenance of networks and the supply and distribution of water and sanitation facilities.

CE4.1 describe and organize the parts of work, delivery notes, invoices, orders, inventories and other paperwork associated with maintenance.

CE4.2 describe the process of the customer demands, considering systems of integrated management of complaints, faults and actions in water distribution and sanitation.

CE4.3 using computer applications and general purpose type Scada, in the processes of operation and maintenance of networks.

CE4.4 fill in the documentation associated with the company quality management systems.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.11; C3 on CE3.1 and CE3.6.

Other capabilities: participate and cooperate actively in the task force.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.

Responsible for the work developed and the fulfilment of the objectives.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.



Contents: 1. programs of maintenance of networks of water supply and sanitation maintenance structure. Function, objectives and types.

Outsourcing of maintenance services. The maintenance organization. Inspections.

Economic maintenance. Warehouse and maintenance material. Supplies. Organization and management of maintenance warehouse. Homologation of suppliers. Technical specifications of spare parts.



2. management of the maintenance facilities of supply of water and sanitation planning and preventive maintenance management.

Critical points of water networks maintenance. Interventional procedures. Security.

Critical points of maintenance of sanitation networks. Interventional procedures. Security.

Systems and quality management procedures.

Integrated management of faults, claims and actions.

Risk prevention and maintenance safety.

Specific computer maintenance management applications.



3. technological systems for the improvement of the performance of plumbing leaks in supply and water distribution systems. Causes and consequences. Leaks in faecal and rain sewerage networks. Causes and consequences. Techniques for detection and evaluation of leak.

Registration and creation of data bases with parameters. Analysis. Systems of closed circuit TV in inspection of pipelines. Geographic information systems. Remote control and telemetering systems.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the organisation of the maintenance of facilities, supply and distribution of water and sanitation, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex VII professional qualification: Organization and solar photovoltaic systems professional family projects: energy and water level: 3 code: ENA263_3 general competition promote facilities, develop projects, and manage the installation and maintenance of solar photovoltaic isolated and connected to network, applying techniques and procedures required in each case, optimizing resources, and compliance with the applicable rules.



Units of competence UC0842_3: determine the viability of solar installations UC0843_3 projects: develop projects of solar photovoltaic UC0844_3: organize and control the mounting of solar photovoltaic UC0845_3: organizing and controlling the maintenance of solar photovoltaic environment professional scope professional develops his professional activity in the area of production dedicated to the development and organization of solar photovoltaic projects , in entities of public or private nature, businesses of all sizes, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the energy sector, sub-sector of renewable energies, in productive activities that is mounting, operation and maintenance of photovoltaic systems for the production of electrical energy.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Promoters of solar designers of solar photovoltaic systems responsible for installation of solar photovoltaic systems responsible for maintenance of solar photovoltaic systems responsible for operation and maintenance of small photovoltaic solar power training associate (570 hours) training modules MF0842_3: viability studies of solar installations (120 hours) MF0843_3: solar photovoltaic (240 hours) MF0844_3 projects: Organization and control of the installation of solar photovoltaic systems (120 hours) MF0845_3 : Organization and control of the maintenance of solar photovoltaic systems (90 hours) unit of competition 1: determine the viability of projects of facilities solar level: 3 code: UC0842_3 realizations professionals and completion criteria: RP 1: needs assessment and energy interests of the user, classifying them for the decision making on the type and characteristics of the most appropriate energy supply, complying with the applicable rules.

CR 1.1 user energy needs are classified according to applications, specifications of receivers and the characteristics of energy demand.

CR 1.2 electric power needs are determined quantitatively by establishing their baselines from the type of receivers.

CR 1.3 thermal energy needs are determined quantitatively by setting their basic parameters, especially the media seasonal annual yields of equipment and facilities depending on their State of maintenance.

CR 1.4 variable seasonal use, time of use, working temperature and simultaneity factor are determined and represent from recognized sources of information and the data provided by the user.

CR 1.5 the formalization of diagnostics and energy needs of a user is carried out by determining the different possibilities of supply, the overall economic costs and the amortization of the installation.

2 RP: Determine the solar potential of an area for making decisions about the possibilities for application of solar energy, complying with the applicable rules.

CR 2.1 solar global radiation, average diurnal ambient temperature and temperature of cold water from the network parameters are obtained from official, or sufficiently reliable statistical data in tables.

CR 2.2 the correlation between data is performed when the required information not tables or statistics available give it directly.

CR 2.3 the determination of direct, diffuse and global solar radiation is performed, using specific computer applications.
CR 2.4 solar data are measured and recorded using the Pyranometer, pirheliometro, «datalogger», automatic stations and other systems, under the conditions laid down quality and safety.

CR 2.5 the use of solar energy is justified from the evaluation of the available solar potential.

3 RP: Formalize proposals of solar facilities responding to energy needs and interests of clients, to determine the option that optimizes available resources.

CR 3.1 the study of the components of the solar installation is performed, using the technical information provided by the manufacturers of solar equipment, performing the necessary calculations and adapting to the needs of the user.

3.2 CR, the study of the ideal location, number and size of collectors or panels is carried out according to the building in which are located, as well as conditions of shadows, obstacles and other determinants of the utilization of solar energy.

CR 3.3 the study of the visual impact of the installation is done, ensuring that it is as low as possible on the basis of the interests of the user, related legislation and the possibilities of location.

CR 3.4 the viability of the project is evaluated by analyzing the cash flows and the most relevant indicators.

CR 3.5 proposal is concrete and formalizes incorporating technical, General schemes, complementary sketches and guidance on compliance with the rules, possible subsidies, amortization and financing developing.

CR 3.6 information and advice is transmitted to the user, answering questions that you might have in terms of technical characteristics, applicable legislation, economic viability requirement of maintenance, reliability, guarantee of supply and other aspects related to the solar system.



Professional context: means of production: specific applications of simulation and computer-aided drawing. Compass. GPS, tape measure. Pyranometer and pirheliometro. Datalogger and automatic stations.



Products and results: assessment of the needs and interests of the user. Solar potential of the study area. Technical and economic studies. Advised client. Processing of permits and subsidies.



Used or generated information: geographic and cadastral maps. Technical catalogues. Tables, graphs, maps, and statistical series on solar parameters. Prices of fuels. Applicable regulations. Forms, applications for grants. Study energy needs. Study solar resource in the area. Technical and economic studies of the installation.



Unit 2 competition: Develop projects of facilities solar PHOTOVOLTAIC level: 3 code: UC0843_3 realizations professionals and completion criteria: RP 1: define the characteristics of the solar photovoltaic installation, using procedures of calculation and established standards, to select the equipment and necessary elements, and their specifications.

CR 1.1 elements are selected, responding to the industry-standard technology and the regulations.

CR 1.2 elements, equipment, components and materials, characteristics are determined by technical calculations based on objective and reliable data, using manuals, tables and specific applications of calculation.

CR 1.3 calculations are performed with the stated accuracy, checking them and contrasting them with other plants of optimum performance.

CR 1.4 the conditions of compatibility between the elements of the photovoltaic solar and other auxiliaries and host facilities features is checked, ensuring performance, reliability and production capacity of the installation.

CR 1.5 components are chosen taking into account the warranties of interchangeability, supply and cost.

2 RP: Making memories, reports and manuals required by official regulators to justify photovoltaic solar projects.

CR 2.1 Introduction and justification of the photovoltaic solar project is carried out according to technological criteria of energy supply, to normative criteria and strategic criteria, among others.

CR 2.2 global technical description of the installation is done through functional analysis.

CR 2.3 the technical justification for the sizing and specifications of parts and components is done using numerical calculations when necessary.

CR 2.4 safety and protection designed, used automatism and other critical points of the installation systems are discussed in the report or memory.

CR 2.5 the technical specifications of the PV solar system is developed.

2.6 CR operation and maintenance manual is drawn up, according to the type of building and existing support systems by establishing the activities and operations of surveillance and maintenance according to model required by regulation.

CR 2.7 corresponding to the report or memory formal document is drawn up, by means of specific software applications.

3 RP: Developing general layout and detailed drawings of photovoltaic solar systems, from technical design specifications set forth, for the development of the project, achieving the required levels of quality and finish.

CR 3.1 the information necessary for the lifting of buildings plans, required in the development of the project, obtained directly the building or, where appropriate, of the building project.

CR 3.2 points and most unique accidents in the building and structures, and that affect the solar installation, are collected systematically.

CR 3.3 the sketches are performed, meeting requirements proportional and graphic expression for their interpretation.

CR 3.4 installation site plans are carried out, applying the regulations and optimizing the process of drawing through the incorporation of the drawings and/or specs of the standardized elements.

CR 3.5 parts and circuits of the facilities are represented by symbols and standard conventions.

3.6 CR site panels and equipment and the layout, dimensions and technical specifications of the installation are determined taking into account the calculations made in memory, and fulfilling the requirements of exploitation and the applicable regulations.

3.7 CR structural resistance and waterproofing of the building are considered constructive solutions adopted in the Assembly and maintenance of the installation.

CR 3.8 BOMs are complete including the code and specifications for the elements of the project.

CR 3.9 the formal document with drawings is made using computer aided design applications.

4 RP: Prepare estimates from the designs made, detailing different headings, for the development of solar photovoltaic projects.

CR 4.1 materials lists are completed, including the commercial reference, code and technical specifications of the elements of the project.

4.2 CR unit price and the total of each of the materials and equipment details, resulting in the total price of each game and the entire system.

CR 4.3 labor expenses are quantified for each one of the professionals involved in the Assembly of the photovoltaic solar.

CR 4.4 overhead costs, industrial benefit and value added tax are applied to headings and with the legally established rates.

4.5 CR described the project and the budget derived from the installation, defining it in such a way that the unforeseen costs of installation tend not to exceed 5% of the total budget.

5 RP: The plan of safety and health in the Assembly of the photovoltaic solar installation, using the project documentation and ensuring compliance with the applicable legislation, to prevent accidents and minimize risks.

CR 5.1 risks arising from falls, in the same or a different level, entrapments and falling objects are identified and evaluated its importance.

CR 5.2 originated in the solar thermal risks are identified, evaluating its importance.

CR 5.3 electrical hazards associated with the outer circuits, high temperature and other extreme conditions, are identified.

CR 5.4 forecasting and planning of emergency plan is integrated into the documentation of the work.

CR 5.5 site safety plan is formalized, identifying the different risks and proposing the corrective measures for their elimination, reasonable reduction and control.

CR 5.6 environmental conditions contrasted, setting the criteria for its minimization.

6 RP: Carry out the administrative procedures required to obtain the authorization of the solar photovoltaic installation and access to possible subsidies.

CR 6.1 compliance with the technical regulations and administrative installation ensures a preliminary to the implementation of the authorization procedures before the relevant official bodies.

CR 6.2 technical and administrative documentation required for obtaining the permits of installation is completed, organizes, and processes.
CR 6.3 compliance with administrative requirements and other areas for possible grants for such facilities ensures a preliminary to the implementation of the procedures of application to the official bodies concerned.

CR 6.4 technical and administrative documentation required for the grant of the installation application is completed, organizes, and processes.

CR 6.5 is the follow-up of the administrative processes related to the authorization and permissions to perform the installation and related to the grant application, avoiding the paralysis of records for reasons attributable to the installer.



Professional context: means of production: tools and tools of measurement of distances. Compass, GPS. Datalogger, pyranometers and pirheliometros. Technical specifications of products. Specific applications of Office Automation, and calculation, design and dimensioning of facilities. Plotter's drawing. Printers. Breeding plans and documentation. Drawing instruments.



Products and results: installation of photovoltaic solar energy project. Approval of the project. Processed documentation for possible grants.



Used or generated information: list of needs and demands of the customer. Requirements and specifications of the electric distribution and transportation company. Economic constraints from the customer. List of limitations and restrictions of a technical nature. Technical, economic and financial feasibility study. Memories, reports, and supporting the project manuals. The installation drawing. Technical product and material data sheets. Bill of materials. Prices list updated products and materials. Budgets. Forms, applications for grants. Health and safety plan. Technical specification. Internal rules of work. Legislation on solar photovoltaic systems and the competent administrations.



Unit 3 competition: Organize and control the Assembly of installations solar PHOTOVOLTAIC level: 3 code: UC0844_3 realizations professionals and completion criteria: RP 1: planning the implementation of a photovoltaic solar installation, defining the phases of work and interpreting the project or technical report, compliance with the applicable rules.

CR 1.1 memory project or plan of work is analyzed and interpreted in the planning process.

CR 1.2 planned installation location and topographic features are interpreted based on the plans.

CR 1.3 functional and auxiliary equipment of the planned solar installation features are interpreted from the information contained in the project.

CR 1.4 items related to the Organization and control of the implementation are interpreted from the documentation of the project or plan of work.

1.5 CR sequencing and general organization of the Assembly is established from the project, carrying out a work plan that optimizes the process in terms of safety, method and time.

CR 1.6 schedules for each of the phases of installation are performed, ensuring coordination and concatenation of parts of the installation.

CR 1.7 procurement plan is done, coordinating the plan of mounting with possibilities of provisioning and storage and guaranteeing the delivery at the right time.

1.8 CR the preliminary organization of human resources and means is set defining the functions of each operator or Guild and its correlation with the technical means programmed in each phase.

CR 1.9 specific software applications used in the planning of solar photovoltaic projects are used to sequence and organize the execution of the work.

RP 2: Organize the stage layout, planning and Assembly of structures of the solar photovoltaic, to follow the timetable established, controlling its execution and making appropriate adaptations from contingencies that may arise.

CR 2.1 the reconsideration of the work is organized and develops contrasting the project field data and overseeing general marking the installation and, where appropriate, the necessary amendments.

CR 2.2 installation Assembly planning is interpreted and used to consider the Organization of work in each of the parts of the installation.

CR 2.3 coordinates the work of different people and associations involved in the work to ensure the fulfilment of the programmed objectives according to criteria of effectiveness, efficiency, quality and safety.

CR 2.4 the information necessary to perform the installation of photovoltaic solar installations is transmitted and informs workers in a clear manner, ensuring the sufficiency and accuracy of the instructions, avoiding errors in interpretation and allowing operators prepare materials, as well as to carry out the work with efficiency, safety and quality.

CR 2.5 the displacement of panels, resistant structures, equipment and other necessary materials is organized and monitored according to the specifications of the project.

CR 2.6 placement of resistant structures is organized and supervised according to the specifications of the project caring especially for the waterproofing of building.

3 RP: Organize the procurement and supply of materials to work according to procedures established in the company, controlling the process and compliance with the applicable rules.

CR 3.1 selection of equipment, tools and other technical resources is monitored in each of the phases of Assembly of the photovoltaic solar installation.

CR 3.2 supply of various materials with respect to their delivery times, terms of delivery, collection in storage and distribution management, coordinates, controls and monitors in accordance with established regulations and specifications.

CR 3.3 quality specifications of materials and other technical resources necessary for the installation are checked according to the applicable regulations.

CR 3.4 technical specifications of quality in the execution of the installation mounting are controlled and monitored, ensuring that they conform to standards.

Displacement 3.5 CR and location of the materials and equipment is managed according to the logistics of the project of the work, with the means of transport and lifting set, and safe.

3.6 CR tools, machinery and ancillary media are organized and maintained for the execution with safety and performance.

4 RP: Organize the phases of Assembly of the photovoltaic solar, to follow the timetable established, controlling its execution and making appropriate adaptations from contingencies that may arise.

4.1 CR placement of panels, monitoring systems and laying of pipes and drivers is organized and monitored according to the specifications of the project.

CR 4.2 storage/accumulation systems Assembly is monitored by ensuring fidelity to the project and the quality of its execution.

CR 4.3 mounting of conventional generators, wind power systems for small power and other support of the photovoltaic systems is monitored ensuring fidelity to the project and the quality of its execution.

CR 4.4 mounting and connection of the electrical system and control devices are organized and monitored, ensuring fidelity to the project and the quality of its execution.

CR 4.5 protections against corrosion, oxidation and mechanical impacts of panels and elements are monitored, in accordance with the specifications of the project.

RP 5: Organize the safety tests and operation and commissioning of the solar photovoltaic, adjusting the equipment and elements of regulation and control, controlling the process to ensure the established operating conditions.

CR 5.1 test plan for the commissioning of the solar photovoltaic system is organized and monitored, ensuring the realization of the statutory safety tests and operation requiring the installation and coordinating the procedures to be followed and their sequence.

CR 5.2 testing installations are verified, fulfilling regulatory requirements and ensuring that values conform to those required by the applicable regulations.

CR 5.3 adjustment of the elements of security, protection and control of the system coordinates and supervises, ensuring that he performs as specified and the requirements of the process.

CR 5.4 emergency and alarm systems are monitored by verifying that they meet established contingency situations and in terms of efficiency.

5.5 CR operation and maintenance manuals are monitored, making it easier for the user.

6 RP: Organize the safety and health plan in operations of photovoltaic solar installations, controlling its execution to ensure the integrity of persons, of the media and its environment, and complying with the applicable rules.

CR 6.1 mounting of the solar photovoltaic system security plan is interpreted, planning resources for their development.
CR 6.2 the Assembly of the photovoltaic installation work is planned according to the requirements of the security plan, transferring personnel under his command, training, or information concerning the requirements of the security plan.

CR 6.3 Professional installation mounting hazards are identified and control, managing the deployment and location of security infrastructures, as well as employment, operation and conservation status of personal protection and safety equipment.

CR 6.4 employment operating control, and conservation status of machines, vehicles, tools and other technical means used in the installation, verifying that they are in perfect condition for use.

CR 6.5 emergency plan related to the Assembly of the photovoltaic solar installation process is managed, paralyzing work when security measures are not complied with, or there is a risk for people.

CR 6.6 environmental risks are evaluated and controlled to avoid or reduce them to the minimum possible levels, respecting, in any case, the applicable regulations.

7 RP: Manage documentation related to the Assembly of the photovoltaic solar installation processes, to ensure compliance with the legal requirements and the implementation of organizational criteria established by the company.

CR 7.1 documents of the project, symbolic diagrams, lists of materials, operation manuals and other technical documents are managed according to the requirements of the company and organizational criteria of clarity and control.

CR 7.2 the parts of work, delivery notes, invoices, control for certificates and other administrative documents are organized and controlled during the Assembly of the installation process.

CR 7.3 documents of topography, data for settlement, the variations with respect to the project in the technical specifications of elements, are monitored and collected to form the documentary basis of the work.

CR 7.4 documentation related to the necessary official permits in the work is managed before the possible legalization, subsidies and inspections.



Professional context: means of production: technical report of the installation or project. The installation drawing. Budget. Computer resources and order management applications. Technical product and material data sheets. Spreadsheets.



Products and results: organized and supervised installation of the photovoltaic solar phases. Evidence of safety and performance and commissioning of the installation planned and supervised. PV system mounted with all its elements installed and connected, and performed with optimization of time and costs.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Map of solar toolpaths. Safety and health in the Assembly plan. Parts of the work, delivery notes, invoices, orders and other administrative documents. Documents of topography. Documentation of official permits. Internal rules of work. Applicable regulations. Tests for the implementation plan. Operation and maintenance manuals. Safety and health in the Assembly plan. Documents of the project, symbolic diagrams, lists of materials, operation manuals and other technical documents. Parts of the work, delivery notes, invoices, orders and other administrative documents. Documents of topography. Documentation of official permits. Internal rules of work. Applicable regulations.



Unit 4 competition: Organize and control the maintenance of installations solar PHOTOVOLTAIC level: 3 code: UC0845_3 realizations professionals and completion criteria: RP 1: organize the maneuvers and operations of adjustment to photovoltaic solar installations, controlling its execution, for the optimization of its operation.

1.1 CR signals and data, directly or through remote control and remote control, systems are interpreted to optimize the operation of the system through adjustment operations.

CR 1.2 different types of maneuvers and adjustments that have to be in the installation are determined, reporting and controlling its execution.

CR 1.3 maneuvers of putting into operation and stop of solar photovoltaic systems are monitored in accordance with the requirements of quality, efficacy and safety.

CR 1.4 related to climatic variations, adjustment and seasonal adaptation of facilities, operations are monitored in accordance with the requirements of quality, efficacy and safety.

CR 1.5 safety measures required in the maneuvers are monitored, ensuring control of risk to persons, the environment and the installation itself.

CR 1.6 manoeuvres and tuning operations results are analyzed, drawing conclusions about the optimization of the performance and the safety of the installation.

2 RP: Develop maintenance of solar photovoltaic schemes, keeping them updated and improving them, for your application.

CR 2.1 the technical information provided by the manufacturers of equipment and elements used in photovoltaic solar installations is used in developing maintenance programs.

2.2 CR company maintenance manuals, in line with the regulations, prepare and keep up to date.

CR 2.3 the definition of tasks, procedures and methods of intervention and removal/installation, checking ranges, time and human resources and materials necessary for their implementation in the period and expected cost is verified, ensuring that they are contained in the installation maintenance program.

CR 2.4 quality control criteria are established for different phases in which the maintenance is organized.

CR 2.5 the critical points of the installations that involve greater risk of overheating, failure of power supply or modification of normal parameters, are considered in the development of maintenance programs.

CR 2.6 established maintenance programs are verified, ensuring that they optimize the resources, determine the needs for external support and guarantee compliance with production targets.

CR 2.7 the procedures used in the preventive and corrective maintenance update, with the frequency stipulated, incorporating the identified improvements.

CR 2.8 continuous improvement of maintenance management plans, testing of new techniques, the participation in the process of new products used in installations according, realized and they supervise.

3 RP: Organize the processes and procedures for preventive and corrective maintenance of solar photovoltaic systems, supervising them for your application.

CR 3.1 maintenance and repair of the installations is organised and monitored using technical and administrative documents received and generated.

CR 3.2 diagnosis of the failure or breakdown of equipment, element or the photovoltaic solar system, monitors and controls, applying techniques of analysis of data taken to carry out the assessment, technical information exploitation and the installation history.

CR 3.3 specifications of materials and equipment used in the maintenance of photovoltaic systems are made for the management of its acquisition.

3.4 CR the stock of materials warehouse and distribution systems are organized, managed and controlled under premises of effectiveness, efficiency and quality.

CR 3.5 human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the various types of maintenance, are coordinated and controlled under premises of effectiveness, efficiency and quality.

CR 3.6 processes of review panels, systems monitoring, accumulators, drivers and pipes, conventional generating equipment, electrical equipment, and other items subject to review campaigns, organize and control in order to get most of the maintenance is preventative.

CR 3.7 maintenance tracking is done by controlling the quality of its implementation and costs, obtaining indicators of control needed to establish comparisons that shape the lines of action most suitable and solving contingencies with maximum efficiency, fulfilling the programmed objectives.

CR 3.8 data result of revisions or modifications of installations are controlled, compile them to maintain up-to-date databases and information systems.

CR 3.9 tabs of control of the periodic maintenance of the elements, as well as the development of the historical database is managed using technological systems.

CR 3.10 attention to notices and claims for problems or failures in the installation is managed with efficiency and quality.

4 RP: Organize the rules and measures of prevention of risks, safety, health and environmental maintenance of solar photovoltaic systems, to monitor its implementation.

CR 4.1 occupational risks resulting from the intervention of maintenance are identified, applying and controlling security in the maintenance plan.
CR 4.2 infrastructure of health and safety of the installation are handled, developing your deployment and location, and by controlling the compliance with the established procedures.

CR 4.3 personal protection and safety equipment used in the maintenance work are monitored by checking its operation and State of conservation.

CR 4.4 employment, performance and condition of machinery, vehicles, tools and other equipment used in the work, are monitored from the point of view of safety.

CR 4.5 emergency plan related to the maintenance of the installation process is managed.

CR 4.6 environmental risks are evaluated and controlled to avoid or reduce them at all times.

RP 5: Control the documentation related to the processes of operation and maintenance of solar photovoltaic systems, to monitor their activity.

CR 5.1 the parties of labor, delivery notes, invoices, orders and other administrative documents are organized, controlling them in the maintenance process.

CR 5.2 the demands of customers are recorded, convey and serve promptly.

5.3 CR administrative procedures and the quality of the maintenance management systems are applied, supervising them for execution.

CR 5.4 inventories are reviewed, updated and managed, by controlling the information related to the high, low, and repair.

CR 5.5 maintenance of the fleets, tools, machinery, communications systems and other equipment is controlled, checking that it has carried out in accordance with technical requirements.

CR 5.6 computer management systems used in the processes of operation and maintenance of solar photovoltaic systems are monitored, verifying that they conform to set operating parameters.



Professional context: means of production: technical report of the installation or project. The installation drawing. Verification of electrical installations of low voltage equipment. Verification of solar photovoltaic equipment. Battery tester. Battery charger. Computer applications for maintenance management.



Products and results: the facilities maintenance plans developed and updated. Operations and managed, organized and supervised maintenance actions. Documented maintenance operations.



Used or generated information: projects, cutting and assembly drawings. Schemes and diagrams of principle. List of parts and components. Programs and maintenance procedures. Technical specifications. Service manuals and use. Operating instructions. Databases. Historical maintenance. Information about alarms generated and detected in the installation itself or monitoring system. Reports from previous predictive maintenance. List of pending jobs. Specific computer applications. Health and safety plan. Internal rules of work. Applicable law, local government law.



TRAINING module 1: studies of viability of facilities solar level: 3 code: MF0842_3 associated with UC: determine the viability of projects of solar duration: 120 hours capabilities and evaluation criteria: C1: quantify the energy needs of different types of users, classifying them and analyzing them to diagnose the possibility of a solar installation.

CE1.1 in a practical course of study in a building with several dwellings where there is demand for electric and thermal energy for domestic hot water and space heating:-detail the ways of life and required services.

-To quantify the electricity for lighting and force, and for general community services.

-To quantify the electricity for lighting and other applications in each of the types of housing.

-Describe the seasonal variability, times of electricity consumption and simultaneity factor.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify the heat energy for each dwelling and for the whole of all of them, analyzing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.2 in a practical course of study of a single-family house in which there is demand for electric and thermal energy for hot water, heating and cooling:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.3 in a practical course of study of a pool heated by solar energy, with support system:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

C2: Define the solar potential in an area determined by the realization of solar installations, using procedures and established media, and complying with the applicable rules.

CE2.1 determine the parameters of solar radiation in a location for which there are elaborate tables that allow to obtain the wanted values directly.

CE2.2 determine the parameters of solar radiation in a location for which there are elaborate tables in which there is to interpret and correlate different results to make a reasonable estimate.

CE2.3 explain the most common models in empirical of different types of solar radiation definition globally.

CE2.4 measure and record data of solar radiation through the use of the Pyranometer, pirheliometro and other usual log devices.

CE2.5 determine, for a location and given surface, the possibilities for realization of a solar thermal or photovoltaic, reasoning the potential and possible use of energy.

C3: Develop proposals for solar installations, aimed at customers, in which the characteristics of the installation and the analysis of the regulatory framework and applicable grants are collected.

CE3.1 study energy needs by assessing them to justify the use of thermal or photovoltaic solar energy.

CE3.2 reason, in the case of solar installations, the site suitable for the collectors, panels and equipment according to the conditions of shadow, obstacles and other determining factors in the use of solar panels, studying aesthetic factors and Visual associates.

CE3.3 reason, in the case of solar heating systems, the characteristics of the elements and components of the circuits of the installation.

CE3.4 reason, in the case of solar photovoltaic systems, the characteristics of the elements and components of the circuits of the installation.

CE3.5 report, outlining the regulatory framework related to the authorization of the installation and the demands derived from the same.

CE3.6 report, outlining the legal framework of possible grants to the installation and the demands derived from the same.

CE3.7 make an indicative budget of a solar thermal that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.8 make an indicative budget of a solar photovoltaic that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.9 make an economic assessment of the investment project by analyzing the most relevant indicators.

CE3.10 write the document concluded with the proposal of the solar heating system using computer tools with general purpose applications.

Skills whose acquisition must be completed in a real work environment: C1 full; C3 on CE3.7 and CE3.8.

Other capabilities: communicate effectively with customers.

Treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.
Have initiative to promote projects.

Participate and collaborate actively in the task force.

Ability to adapt to the context and needs of the people.



Contents: 1. fundamentals of solar power the Sun as energy source. The Sun and the Earth.

Solar energy conversion. The accumulation of power.

Integrated energy systems.



2 location and feasibility of solar energy needs facilities. Calculation. Solar potential of an area. Tables and measuring systems.

The location factors. Orientation, inclination and shadows.

Architectural and structural systems. Architectural integration.

Viability. Economic and financial factors.



3. classification of solar heating thermal solar energy. Global operation. Solar collectors. Operation, Constitution and connection. Elements of a solar thermal installation and specifications: sensors, primary and secondary circuits, heat exchangers, storage tanks, expansion tanks, circulation pumps, pipes, traps, flow meters, valves and elements of regulation and control.

Solar cooling systems. Applicable regulations.



4. classification of solar photovoltaic photovoltaic solar energy. Global operation.

Solar panels. Operation, Constitution and connection.

Elements of a solar photovoltaic installation connected to network and specifications.

Solar tracking systems.

Elements of an isolated solar installation and specifications.

Energy accumulation and support systems.

Solar cooling.

Applicable regulations.



5. promotion of solar promotion of renewable energies. Models and energy policies. Solar energy international, national and regional context.

Economic and financial studies of solar installations.

Code construction technician, bylaws and applicable regulations.

Regulatory framework of subsidies. Legislation and calls.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the determination of the viability of solar installations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: projects of installations solar PHOTOVOLTAIC level: 3 code: MF0843_3 associated with UC: develop projects of photovoltaic solar duration: 240 hours capabilities and evaluation criteria: C1: analyze the types of solar photovoltaic systems, selecting the best adapted to the constructive characteristics, the energy needs of the user and the rules applicable.

CE1.1 listed the main rules applicable to photovoltaic solar installations.

CE1.2 describe the characteristics of the different solutions of solar photovoltaic systems with connection to network.

CE1.3 describe the characteristics of the different solutions of isolated photovoltaic solar installations.

CE1.4 describe the characteristics of the different facilities of support for solar photovoltaic systems.

CE1.5 in a practical case of project development of a photovoltaic installation with network connection:-describe the functions of the elements that comprise the installation.

-Identify the legislation, mandatory or not, affecting in the development of the project.

-Determine the documentation to develop according to the applicable regulations.

-A report of required requirements: technical specifications, characteristics of the materials and applicable regulations.

CE1.6 in a practical course of development of a project of an isolated photovoltaic solar installation:-describe the functions of the elements that comprise the installation.

-Identify the legislation, mandatory or not, affecting in the development of the project.

-Determine the documentation to develop according to the applicable regulations.

-A report of required requirements: technical specifications, characteristics of the materials and applicable regulations.

C2: Determine the elements comprising photovoltaic solar installations, using procedures and established media, and complying with the applicable rules.

CE2.1 calculations of electricity production from photovoltaic systems based on solar radiation data and taking into account anticipated seasonal and daily consumption, the contributions of the supporting facilities and the efficiency of the entire system.

CE2.2 determine the characteristics of the elements, equipment, components and materials, through technical calculations based on objective and reliable data and using manuals, tables and specific applications of calculation.

CE2.3 in a practical course of development of photovoltaic solar installations, a facility connected to:-identify the constituent elements of the installation.

-Perform or complete schemes of the parts of the installation.

-Determine the characteristics of the elements of the installation.

-Select from commercial catalogs, equipment and materials from the defined characteristics.

-Sized stands, benches and other items subject to mechanical stress.

CE2.4 in a practical course of development projects of photovoltaic solar systems, in an installation with support through conventional generator or wind power system:-identify the constituent elements of the installation.

-Perform or complete schemes of the parts of the installation.

-Determine the characteristics of the elements of the installation.

-Select from commercial catalogs, equipment and materials from the defined characteristics.

-Sized stands, benches and other items subject to mechanical stress.

C3: Draw, the ideal support, plans, principles of operation, outlines general and details that make up the graphic documentation of the Assembly of the photovoltaic solar project.

CE3.1 in a practical course of development of photovoltaic solar installations, installation:-choose the suitable graphic system, in each case.

-Select the rules to be used in the graphical representation.

-Select tools, supports and formats suitable for the realization of the plane.

-Identify and name each of the drawings of the project.

-Draw and dimension levels in a clear and concise manner.

C4: Drawing up reports, budgets and other technical documentation of the project to the Assembly, maintenance and use of the solar photovoltaic.

CE4.1 formalize technical paper with calculations and justifications for parts of the photovoltaic solar installation.

CE4.2 make budgets of facilities, detailing the concepts of spending and analyzing the possibilities of grant and estimates of depreciation.

CE4.3 develop the elements of the draft Assembly diagrams, especially according to the dimensional calculations and orientation.

CE4.4 perform the operating manual which includes: installation instruction, commissioning, use and maintenance, with their corresponding schemas.

CE4.5 compose and assemble, neatly, the project documents and the technical dossier, preparing a presentation.

C5: Plans of safety and health for the installation of solar photovoltaic systems.

CE5.1 define the risks arising from falls, in the same or a different level, entrapments and falling objects.

CE5.2 define thermal risks originating from the photovoltaic solar installation.

CE5.3 define the electrical hazards associated with the outer circuits, high temperature and other extreme conditions.

CE5.4 detailed emergency plans that are implanted in the installation of solar photovoltaic systems.

CE5.5 formalize and document emergency plans that are going to be implanted in the installation of solar photovoltaic systems.

CE5.6 describe the environmental conditions present in the installation of solar photovoltaic systems.

C6: Develop documentation of record for the administrative approval and to obtain, where appropriate, the corresponding subsidies.

CE6.1 describe the administrative processes which remains the record for the approval of the installation.

CE6.2 perform the necessary documents for the administrative authorisation of the installation.
CE6.3 describe the administrative processes following the record for obtaining grants.

CE6.4 prepare reports and other documents of the grant record.

CE6.5 in a practical course of development projects of photovoltaic solar systems, from the technical and architectural solutions already raised:-define the rules and procedures necessary to obtain the authorization of the installation.

-Define the possible legal framework to get grant to determine the requirements and the process to follow in your application.

-Conduct a study of the installation amortization, establishing reasonable hypothesis of energy consumption, operation of the installation, solar weather and price of energy.

Skills whose acquisition must be completed in a real work environment: C1 with regard to CE1.5 and CE1.6; C2 regarding CE2.4; C3 on CE3.1; C6 with respect to CE6.5.

Other capabilities: demonstrate a good make professional.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Have initiative to promote projects.

Participate and collaborate actively in the task force.

Ability to adapt to the context and needs of the people.

Communicate effectively with the right people at any given time, respecting the channels established in the organization.



Contents: 1. electrical circuits and fundamentals of electric circuits of direct current and alternating current distribution networks.

Rectifiers and converters.

Power factor of an electrical installation.

Calculation of sections of an electrical installation.

Low voltage distribution networks.

Systems of connection of neutral and masses in electricity distribution networks.



2. features and commissioning of indoor facilities General requirements. Installation systems. Tubes and protective channels.

Protection against overcurrent. Surge protection. Protection against direct and indirect contacts.

Indoor facilities in dwellings. Number of circuits and features. General prescriptions for installation.

Installations on premises of features or special purpose.

Very low voltage installations.

Special voltage installations.

Low voltage generating installations.

Installation of receivers: lighting, heating, cables and radiant pages in homes, motors, transformers and autotransformers, ballasts and rectifiers, capacitors.

Facilities of automation systems, technical management of energy and security for homes and buildings.

Authorized installers. Documentation and commissioning of facilities. Checks and inspections.



3 projects in photovoltaic solar needs that must be considered in the development of a project. Reception facility. Sources of information. Assessment of alternatives. Technological and economic criteria.

Components of a project: data involved, required standards, descriptive and supporting memory, plans, specifications, budgets. Security plan.



4. calculation of solar photovoltaic facilities configuration types. Most important calculation factors and variables. Methods used.

Calculation of grid-connected PV installations. Number of panels.

Calculation of isolated photovoltaic installations. Calculation of the accumulation system.

Calculation of systems of support through conventional generators. Calculation of systems of support through wind-power systems.

Calculation of autonomous pumping and irrigation systems using photovoltaic systems.

Specific applications of calculus.



5. Design and representation of solar photovoltaic panels and electrical circuitry design.

Drawings of the necessary civil works. Planes of the wiring diagrams. Drawings of details. Assembly of the different elements of the installation drawings.

Specific computer aided design applications.



6. integration of photovoltaic solar systems aesthetics and architectural integration. Integrated photovoltaic panels. Integration of solar installations. Passive solar architecture, solar photovoltaics.

Conventional energy and solar energy.

Distributed systems for production of electricity using photovoltaic systems.



7. administrative processes in solar photovoltaic policy framework of subsidies. Legislation and calls. Processing of grants. Technical and administrative documentation. Promotion and management of facilities. Submission of tenders.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the development of projects of photovoltaic solar systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: Organization and CONTROL of the Assembly installations solar PHOTOVOLTAIC level: 3 code: MF0844_3 associated with UC: organizing and controlling the Assembly of photovoltaic solar systems duration: 120 hours capabilities and evaluation criteria: C1: managing technical documentation of solar photovoltaic systems, determining the activities and resources, to plan the Assembly process.

CE1.1 describe the documents that make up a project, technical report or a manual of installation of a photovoltaic solar distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE1.2 describe general phases of development of an Assembly of a solar photovoltaic process, identifying the technical phases of Assembly of the same from schedules and plans.

CE1.3 represent symbolic diagrams, sketches and isometric diagrams of a photovoltaic solar and its components, facilitating its mechanical and electrical Assembly.

CE1.4 handle and interpret graphic information of solar photovoltaic systems produced in representation by means of computer systems by performing operations of copying or modification of data, with standardized procedures pertaining to specific applications of design and representation of solar photovoltaic systems.

CE1.5 describe the fundamental requirements of the regulations applicable to such facilities.

CE1.6 complete technical and administrative documentation related to the execution of the installation mounting, classifying documents according to the typology and the management process that should be followed.

CE1.7 in a so-called practical organization and installation of a photovoltaic solar control, from the drawings and technical documentation:-identify the components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose it: panels, tracking systems, systems of accumulation, pipes, conductors, measuring equipment and control equipment.

-Relate the composition and characteristics of the solar photovoltaic installation with the requirements of the applicable regulations.

-Reason the operation of the system, describing the function, structure and composition of the parts that make it up.

-List and describe Assembly management documents associated with the installation.

C2: To develop programs of sourcing for the installation of solar photovoltaic systems.

CE2.1 use administrative and technical information derived from the technical project, developing programs of supply for the Assembly according to methods used in strategic planning.

CE2.2 perform the provisioning plan coordinating the plan of mounting with possibilities of provisioning and storage, ensuring the delivery at the right time.

CE2.3 define and develop quality control criteria in phases that make up the supply.

CE2.4 design provisioning systems and mounting safety equipment.

CE2.5 in a practical course of organization and control of the installation of a photovoltaic solar system, from the planes of the installation and commissioning manuals:-determine the technical requirements applicable to components.

-Determine the criteria of quality control in the reception of components.

-Manage the procurement of materials and equipment logistics.

C3: Develop work plans for the installation of photovoltaic systems according to the project and established work procedures.
CE3.1 describe the different techniques that are used in the Assembly of photovoltaic processes: Assembly, screwed, skim, riveting, anchorage, connection.

CE3.2 relate the human resources involved in different phases of the operations of Assembly of photovoltaic systems.

CE3.3 describe the procedures of optimization of Assembly work.

CE3.4 represent the schemes of work organization and time control in the installation of photovoltaic solar systems by means of diagrams and schedules appropriate to their level.

CE3.5 raise the start-up of the installation, defining the various tests that will be carried out.

CE3.6 describe and assess the implementation of the safety and health plan in the realization of the installation.

CE3.7 in a practical course of organization and control of the installation of a solar photovoltaic, which prepares a work plan for the corresponding Assembly, from the planes of the installation and commissioning manuals:-determine the requirements of the areas of work in the phases of Assembly.

-Select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-Preparing a report of non-conformities to determine the suitability of components to the technical requirements.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

-Determine the tests and commissioning operations.

-Determine the corrective measures to be undertaken in anticipation of possible deviations in relation to the work plan.

-Consider the implementation of the security plan.

C4: Justify resistant structures in the solar photovoltaic constructive solutions and control the General Assembly from the technical documentation operations, complying with the applicable rules.

CE4.1 rethink the general design of the installation, comparing data and plans of the project with the reality of the land and/or buildings involved.

CE4.2 determine the types of efforts to subject the structural elements of the installation, assessing the adaptation of the geometry of the structure to them.

CE4.3 perform simple calculations to determine the dimensions of new elements required in the redefinition of the work and which have not been determined in the project or memory.

CE4.4 Select, from technical catalogues, resistant systems, clamping and Assembly of structures necessary anchor, choosing the most appropriate depending on installation, of the environment, of the land or building.

CE4.5 in a practical course of organization and control of the installation of a photovoltaic solar system, from memory or the project, detailing the design of the resistant structure installation and a wind turbine support:-determine the degree of adaptation of the solution to the reality of the land.

-Define unspecified constructive detail solutions.

-Calculate the dimensions of the hardware, shoulder straps and other resistant elements of the installation.

-Identify the most problematic points from the point of view of the efforts to which they are subject.

-Choose the most suitable system of anchoring and fastening of structures.

-Detailing the consequences of rupture or failure of critical resistant structures, proposing possible solutions of reinforcement in more serious situations for people or the elements of the installation.

-Check Assembly of the structures.

C5: Control the General Assembly from the technical documentation operations, complying with the applicable rules.

CE5.1 describe the operations of control of the Assembly and connection of photovoltaic panels.

CE5.2 describe the operations of control of the Assembly and connection of storage/accumulation of power systems.

CE5.3 justify the requirements for installation and integration support with photovoltaic solar installations, describing the control points for the case of a conventional generator and a wind farm support system.

CE5.4 explain the monitoring tasks related to computers and electrical installations for the protection, regulation and control.

CE5.5 Select, from technical catalogues, elements and additional equipment not defined in the project or memory, depending on the characteristics of the installation.

C6: Define the criteria of quality of installation and commissioning of photovoltaic solar systems from technical documentation, compliance with the applicable rules.

CE6.1 define the demands required in the preparation of the work area in accordance with the requirements of the work itself, identifying the specific risks and proposing corrective measures.

CE6.2 plan for the movement of equipment and materials, and location according to the work to be carried out under conditions of safety.

CE6.3 define the critical points of supervision of the Assembly of the panels to ensure its integrity and sealing.

CE6.4 define the criteria for alignment, orientation and tilt positioning of panels.

CE6.5 describe the quality criteria in the finish of the electrical system of power and control, according to established procedures and rules of application.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C2 regarding CE2.5; C3 on CE3.7; C4 on CE4.5.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Demonstrate creativity in the development of the work performed.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Propose alternatives with the aim of improving results.



Contents: 1. Organization of the installation of solar photovoltaic systems organization and preparation of the mounting. Strategic planning techniques.

Methodological specifications for installation of panels. Documentation of the materials. Machinery and equipment used in the Assembly.

Management tools.

Applicable regulations: regulation of heating systems, electrical regulatory, safety, quality and environment.



2. resistant structures in solar installations types of efforts. Resistant structures. Geometry and basic calculations. Shares of wind and snow. Anchorage systems. Techniques of assembling structures. Restraint of wind turbine systems. Noise and vibration.



3. control of installation of solar photovoltaic systems procedures and operations of preparation and layout of the facilities.

Civil works: displacement and hoisting of materials and equipment.

Identification and selection of equipment and necessary elements for the Assembly based on the plans of the installation.

Adaptation and improvement of facilities.

Techniques and Assembly, settlement, alignment and clamping operations.

The different elements of a solar photovoltaic installation. Quality in the Assembly. Technical requirements specifications. Technical documentation of the work. Reports.



4. putting into service of solar photovoltaic electric testing organization.

Adjustment of control circuits. Critical control points.

Interconnection of the installation of support.

Technical documentation related to the start-up.



5 security plan in the Assembly of photovoltaic solar systems General safety measures.

Management of security in the hoisting of loads.

Safety management to the risks of electrical origin.

Prevention and environmental protection.

Emergency management.

Communication systems.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related with the Organization and control of the Assembly of photovoltaic solar systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: Organization and maintenance of installations solar PHOTOVOLTAIC level CONTROL: 3 code: MF0845_3 associated with UC: organizing and controlling the maintenance of solar photovoltaic
Duration: 90 hours capabilities and evaluation criteria: C1: analyze the technical documentation of solar photovoltaic systems determining the activities and resources, to plan the maintenance process.

CE1.1 describe the technical documentation referred to the solar photovoltaic, necessary to make your maintenance planning.

CE1.2 identify in the project or maintenance plan, equipment and elements of photovoltaic solar installations for the maintenance plan.

CE1.3 analyzing the security of them to determine the critical points of a photovoltaic solar installation where faults, as well as their causes and functional consequences may occur.

CE1.4 in a so-called practical organization and control of the maintenance of photovoltaic solar systems, from the Handbook of maintenance instructions, plans, diagrams and other technical documents:-determine the operations that must be performed in the maintenance of the system.

-Determine the type of human and material resources needed to carry out preventive maintenance.

-Determine the type of human and material resources needed to carry out the most common corrective maintenance interventions.

C2: Develop written procedures for the operations of maintenance of solar photovoltaic, determining tasks, materials, media, and criteria for the control of the execution.

CE2.1 Select, from among the set of preventive maintenance of a photovoltaic solar installation, those requiring written procedures, justifying his selection.

CE2.2 write the procedure to be followed for the detection of the most common faults in different types of facilities.

CE2.3 produce different material specifications to manage its acquisition in the maintenance process.

CE2.4 explain the monitoring tasks related to the acquisition of supplies and stock control.

CE2.5 write preventive maintenance procedures common in different types of facilities.

CE2.6 describe the security in the process of maintenance plan and determine the means and safety equipment that must be taken into account for the realization of the service, generating the necessary technical documentation in the intervention process.

CE2.7 in a practical course of organization and control of the maintenance of photovoltaic solar systems, for the application of the preventive and corrective maintenance, in which different types of parts or equipment, with the help of the technical documentation should be replaced:-set the order or sequence of the different tasks of the disassembly and Assembly, detailing previous operations related to security.

-Define the specifications of the operations to be performed.

-Describe the technique that will be used in the different tasks, setting materials, media, tools, time and human resources.

-Consider the requirements and tasks relating to the safety of the operation.

C3: Apply programming techniques that optimize resources for the programmes of intervention and follow-up of maintenance.

CE3.1 explain the different scheduling of preventative maintenance techniques and the requirements that must be met in each of them.

CE3.2 explain the characteristics of the graph of workloads.

CE3.3 analyze the Organization, performance and use of a specific software application for the management and control of the maintenance.

CE3.4 detailing the operation of the remote control and remote measurement of solar photovoltaic systems.

CE3.5 explain components of the costs of maintenance and systems to optimize them.

CE3.6 in a practical course of organization and control of the maintenance of photovoltaic solar systems, in the development of a plan of maintenance of one or more facilities:-determine the types of intervention and moral and civic education.

-Establish workload of human resources with the necessary material means to carry out the maintenance.

-Prepare the list of spare parts and consumables that are needed for that period.

-Perform an annual maintenance budget, breaking down the cost into its components: parts, unforeseen stops, labor, displacement, tax and other associated costs.

C4: Monitor general peacekeeping operations in photovoltaic solar systems from technical documentation, applying standard operating procedures, regulations and acting under safety rules.

CE4.1 describe the operations of maintenance and repair of brackets, anchors and other structural components of photovoltaic solar installations.

CE4.2 describe the operations of maintenance and repair on electrical, electronic systems and control.

CE4.3 describe the operations of maintenance and repair in the systems of accumulation.

CE4.4 identify the critical points in the maintenance of the photovoltaic solar installations.

CE4.5 identify operations that check is performed when the preventive maintenance and repair of solar photovoltaic systems.

CE4.6 describe the procedures for commissioning of a photovoltaic installation once it has been repaired or peacekeeping operations made him.

CE4.7 in one or several practical cases of organization and control of the maintenance of photovoltaic solar systems, in the realization of revisions or preventive maintenance and repairs on-site operations:-check has been identified the fault and possible causes that obeys.

-Check that the operations to be raised are required and the means to carry out them are the ideal.

-Catalogues, if necessary, select items and additional equipment not defined in the project or memory.

-Supervise the operations of checking and repair conforms to the established work procedures.

-Check that there are safety measures in carrying out all the operations.

-Supervise the commissioning of photovoltaic system.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.4; C2 regarding CE2.7; C3 on CE3.6; C4 regarding CE4.7.

Other capabilities: demonstrate a good make professional.

Treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Maintaining an assertive attitude, empathic and conciliatory with others; showing cordiality and kindness in the deal.

Convey information with clarity, orderly, structured, clear and precise; respecting the channels established in the organization.



Contents: 1. the maintenance of photovoltaic solar systems maintenance organization. Function, objectives and types. Preventive and corrective maintenance. Planning and scheduling of maintenance. Maintenance plans. Most common critical faults. Basic/typical preventive maintenance in the photovoltaic solar operations. Quality maintenance, importance and enhancement tools.

Inspection and verification of mechanical installations. Inspection and verification of electrical installations. Automatic telemetering and telecontrol systems.

Calculation of needs. Load planning. Determination of times. Documentation for planning and programming. The work order. Safety plan in the maintenance of solar photovoltaic.



2 economic management of solar photovoltaic systems maintenance the maintenance cost. Analysis of costs.

Evaluative criteria for replacement of machinery and equipment. Optimization of the maintenance.

Quality in the provision of the service.

Economic and administrative documentation on maintenance. Invoices and budgets.

Book of the building and other official documents related to the registration, inspection and control.



3 warehouse and materials maintenance solar photovoltaic reception and coding of supplies. Organization of the store. Stock management. Homologation of suppliers.



4 solar photovoltaic database computer-assisted maintenance management. Creation of data base. Specific applications of preventive and corrective maintenance.

Management and storage of shopping. Predictive maintenance.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Organization and control of the maintenance of photovoltaic solar systems, which will be using one of the following ways:
-Academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex VIII professional qualification: Organization and solar heating professional family projects: energy and water level: 3 code: ENA264_3 general competition promote facilities, develop projects and manage the installation and maintenance of solar heating systems controlling the results obtained by applying the techniques and procedures required in each case, optimizing human resources and means available and complying with the applicable rules.



Units of competence UC0842_3: determine the viability of solar installations UC0846_3 projects: develop projects of solar heating UC0847_3: organizing and controlling the installation of solar heating systems UC0848_3: organizing and controlling the maintenance of solar heating environment professional scope professional develops his professional activity in the area of production dedicated to the Organization and solar heating projects , in entities of public or private nature-sized businesses small, medium or large, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the sector of construction and energy, in productive activities are performed Assembly, exploitation and maintenance of solar domestic hot water thermal or for supporting heating systems and other applications.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Promoters of solar heating designers of solar thermal solar installations responsible for responsible for maintenance of solar heating systems of alternative energy training associate (570 hours) technical modules training MF0842_3: (120 hours) MF0846_3 solar feasibility studies: solar heating systems (240 hours) MF0847_3 projects: Organization and control of the installation of solar heating systems (120 hours) MF0848_3 : Organization and control of the maintenance of solar heating systems (90 hours) unit of competition 1: determine the viability of projects of facilities solar level: 3 code: UC0842_3 realizations professionals and completion criteria: RP 1: needs assessment and energy interests of the user, classifying them for the decision making on the type and characteristics of the most appropriate energy supply, complying with the applicable rules.

CR 1.1 user energy needs are classified according to applications, specifications of receivers and the characteristics of energy demand.

CR 1.2 electric power needs are determined quantitatively by establishing their baselines from the type of receivers.

CR 1.3 thermal energy needs are determined quantitatively by setting their basic parameters, especially the media seasonal annual yields of equipment and facilities depending on their State of maintenance.

CR 1.4 variable seasonal use, time of use, working temperature and simultaneity factor are determined and represent from recognized sources of information and the data provided by the user.

CR 1.5 the formalization of diagnostics and energy needs of a user is carried out by determining the different possibilities of supply, the overall economic costs and the amortization of the installation.

2 RP: Determine the solar potential of an area for making decisions about the possibilities for application of solar energy, complying with the applicable rules.

CR 2.1 solar global radiation, average diurnal ambient temperature and temperature of cold water from the network parameters are obtained from official, or sufficiently reliable statistical data in tables.

CR 2.2 the correlation between data is performed when the required information not tables or statistics available give it directly.

CR 2.3 the determination of direct, diffuse and global solar radiation is performed, using specific computer applications.

CR 2.4 solar data are measured and recorded using the Pyranometer, pirheliometro, «datalogger», automatic stations and other systems, under the conditions laid down quality and safety.

CR 2.5 the use of solar energy is justified from the evaluation of the available solar potential.

3 RP: Formalize proposals of solar facilities responding to energy needs and interests of clients, to determine the option that optimizes available resources.

CR 3.1 the study of the components of the solar installation is performed, using the technical information provided by the manufacturers of solar equipment, performing the necessary calculations and adapting to the needs of the user.

3.2 CR, the study of the ideal location, number and size of collectors or panels is carried out according to the building in which are located, as well as conditions of shadows, obstacles and other determinants of the utilization of solar energy.

CR 3.3 the study of the visual impact of the installation is done, ensuring that it is as low as possible on the basis of the interests of the user, related legislation and the possibilities of location.

CR 3.4 the viability of the project is evaluated by analyzing the cash flows and the most relevant indicators.

CR 3.5 proposal is concrete and formalizes incorporating technical, General schemes, complementary sketches and guidance on compliance with the rules, possible subsidies, amortization and financing developing.

CR 3.6 information and advice is transmitted to the user, answering questions that you might have in terms of technical characteristics, applicable legislation, economic viability requirement of maintenance, reliability, guarantee of supply and other aspects related to the solar system.



Professional context: means of production: specific applications of simulation and computer-aided drawing. Compass. GPS, tape measure. Pyranometer and pirheliometro. Datalogger and automatic stations.



Products and results: assessment of the needs and interests of the user. Solar potential of the study area. Technical and economic studies. Advised client. Processing of permits and subsidies.



Used or generated information: geographic and cadastral maps. Technical catalogues. Tables, graphs, maps, and statistical series on solar parameters. Prices of fuels. Applicable regulations. Forms, applications for grants. Study energy needs. Study solar resource in the area. Technical and economic studies of the installation.



Unit 2 competition: Develop projects of facilities solar thermal level: 3 code: UC0846_3 realizations professionals and completion criteria: RP 1: define the characteristics of the solar thermal installation, using procedures of calculation and established standards, to select the equipment and necessary elements, and their specifications.

CR 1.1 elements are selected, responding to the industry-standard technology and the regulations.

CR 1.2 elements, equipment, components and materials, characteristics are determined by technical calculations based on objective and reliable data, using manuals, tables and specific applications of calculation.

CR 1.3 calculations are performed with the stated accuracy, checking them and contrasting them with other plants of optimum performance.

CR 1.4 the conditions of compatibility between the elements of the solar system and other elements of auxiliaries and host facilities, are verified, ensuring performance, reliability and production capacity of the installation.

CR 1.5 installation components are chosen taking into account the warranties of interchangeability, supply and cost, as well as the general configuration of the system to which they belong.

2 RP: Making memories, reports and manuals required by official regulators to justify solar heating projects.

CR 2.1 Introduction and justification of the solar project is carried out according to technological criteria of energy supply, to normative criteria and strategic criteria, among others.
CR 2.2 global technical description of the installation is done through functional analysis.

CR 2.3 the technical justification for the sizing and specifications of parts and components is done using numerical calculations when necessary.

CR 2.4 safety and protection designed, used automatism and other critical points of the installation systems are discussed in the report or memory.

CR 2.5 develops the technical specifications of the solar heating system.

CR 2.6 operation and maintenance manual is drawn up according to the type of building and the existing conventional equipment, protection against Legionella systems be documented and establishing activities and monitoring and maintenance according to model required by regulation.

CR 2.7 corresponding to the report or memory formal document is drawn up by means of specific software applications.

3 RP: Developing general layout and detailed drawings of solar heating, from technical design specifications set forth, for the development of the project, achieving the required levels of quality and finish.

CR 3.1 the information necessary for the lifting of buildings plans, required in the development of the project, obtained directly the building or, where appropriate, of the building project.

CR 3.2 points and most unique accidents in the building and structures, and that affect the solar installation, are collected systematically.

CR 3.3 the sketches are performed, meeting requirements proportional and graphic expression for their interpretation.

CR 3.4 installation site plans are carried out by applying the rules established and optimizing the process of drawing through the incorporation of the drawings and/or specs of the standardized elements.

CR 3.5 parts and circuits of the facilities are represented by symbols and standard conventions.

CR 3.6 the location of the sensors and equipment and the layout, dimensions and technical specifications of the installation are determined taking into account the calculations made in memory, fulfilling the requirements of exploitation and the applicable regulations.

3.7 CR structural resistance and waterproofing of the building are considered constructive solutions adopted in the Assembly and maintenance of the installation.

CR 3.8 BOMs are completed, including the code and specifications for the elements of the project.

CR 3.9 the formal document with drawings is made using specific computer aided design applications.

4 RP: Prepare estimates from the designs made, detailing different headings, for the development of solar heating projects.

CR 4.1 materials lists are completed, including the commercial reference, code and technical specifications of the elements of the project.

4.2 CR unit price and the total of each of the materials and equipment details, resulting in the total price of each game and the entire system.

CR 4.3 labor expenses are quantified for each one of the professionals involved in the mounting of the solar thermal.

CR 4.4 overhead costs, industrial benefit and value added tax are applied to headings and with the legally established rates.

4.5 CR described the project and the budget derived from the installation, defining it in such a way that the unforeseen costs of installation tend not to exceed 5% of the total budget.

5 RP: The plan of safety and health in the mounting of the solar thermal installation, using the project documentation and ensuring compliance with the applicable legislation, to prevent accidents and minimize risks.

CR 5.1 risks arising from falls, in the same or a different level, entrapments and falling objects, are identified and evaluated its importance.

CR 5.2 originated in the solar thermal risks are identified, evaluating its importance.

CR 5.3 electrical hazards associated with the outer circuits, high temperature and other extreme conditions, are identified.

CR 5.4 forecasting and planning of emergency plan is integrated into the documentation of the work.

CR 5.5 site safety plan is formalized, identifying the different risks and proposing the corrective measures for their elimination, reasonable reduction and control.

CR 5.6 environmental conditions contrasted, setting the criteria for its minimization.

6 RP: Carry out the administrative procedures required to obtain the authorization of the solar thermal installation and access to possible subsidies.

CR 6.1 compliance with the technical regulations and administrative installation ensures a preliminary to the implementation of the authorization procedures before the relevant official bodies.

CR 6.2 technical and administrative documentation required for obtaining the permits of installation is completed, organizes, and processes.

CR 6.3 compliance with administrative requirements and other areas for possible grants for such facilities ensures a preliminary to the implementation of the procedures of application to the official bodies concerned.

CR 6.4 technical and administrative documentation required for the grant of the installation application is completed, organizes, and processes.

CR 6.5 is the follow-up of the administrative processes related to the authorization and permissions to perform the installation and related to the grant application, avoiding the paralysis of records for reasons attributable to the installer.



Professional context: means of production: tools and tools of measurement of distances and angles. Compass, GPS. Datalogger, pyranometers and pirheliometros. Technical specifications of products. Specific applications of Office Automation, and calculation, design and dimensioning of facilities. Plotter's drawing. Printers. Breeding plans and documentation. Drawing instruments.



Products and results: installation of thermal solar energy project. Approval of the project. Processed documentation for possible grants.



Used or generated information: list of needs and demands of the customer. Economic constraints from the customer. List of limitations and restrictions of a technical nature. Technical, economic and financial feasibility study. Memories, reports, and supporting the project manuals. The installation drawing. Technical product and material data sheets. Bill of materials. Prices list updated products and materials. Budgets. Forms, applications for grants. Health and safety plan. Technical specification. Internal rules of work. Regulations for solar heating systems and the competent bodies.



Unit 3 competition: Organize and control the Assembly of installations solar thermal level: 3 code: UC0847_3 realizations professionals and completion criteria: RP 1: planning the implementation of a solar heating system, defining the phases of work and interpreting the project or technical report, compliance with the applicable rules.

CR 1.1 memory project or plan of work is analyzed and interpreted in the planning process.

CR 1.2 planned installation location and topographic features are interpreted based on the plans.

CR 1.3 projected solar installation and its auxiliary equipment functional characteristics are interpreted from the information contained in the project.

CR 1.4 items related to the Organization and control of the implementation are interpreted from the documentation of the project or plan of work.

1.5 CR sequencing and general organization of the Assembly is established from the project, carrying out a work plan that optimizes the process in terms of safety, method and time.

CR 1.6 schedules for each of the phases of Assembly are made by ensuring coordination and chaining of different parts of the installation.

CR 1.7 procurement plan is coordinating the plan of mounting with possibilities of provisioning and storage and guaranteeing the delivery at the right time.

1.8 CR the preliminary organization of human resources and means is set defining the functions of each operator or Guild and its correlation with the technical means programmed in each phase.

CR 1.9 specific software applications used in the project planning of solar heating systems are used for sequencing and organising the execution of the work.

RP 2: Organize the stage layout, planning and Assembly of structures of the solar thermal installation, to follow the timetable established, controlling its execution and making appropriate adaptations from contingencies that may arise.

CR 2.1 the reconsideration of the work is organized and develops contrasting the project field data and overseeing general marking the installation and, where appropriate, the necessary amendments.
CR 2.2 installation Assembly planning is interpreted and used to consider the Organization of work in each of the parts of the installation.

CR 2.3 coordinates the work of different people and associations involved in the work to ensure the fulfilment of the programmed objectives according to criteria of effectiveness, efficiency, quality and safety.

CR 2.4 the information necessary to perform the installation of thermal solar installations is transmitted to workers in a clear manner, ensuring the sufficiency and accuracy of the instructions, avoiding errors in interpretation and allowing operators prepare materials, as well as to carry out the work with efficiency, safety and quality.

CR 2.5 the displacement of resistant structures, equipment and other necessary materials is organized and monitored according to the specifications of the project.

CR 2.6 placement of resistant structures is organized and supervised according to the specifications of the project caring especially for the waterproofing of building.

3 RP: Organize the procurement and supply of materials to work according to procedures established in the company, controlling the process and complying with the rules of application.

CR 3.1 selection of equipment, tools and other technical resources is monitored in each of the phases of installation Assembly.

CR 3.2 supply of various materials with respect to their terms of delivery, conditions of delivery and collection in storage and distribution management, coordinates, controls and monitors, in accordance with established regulations and specifications.

CR 3.3 quality specifications of materials and other technical resources necessary for the installation, are verified according to applicable regulations.

CR 3.4 technical specifications of quality in the execution of the installation mounting are controlled and monitored, ensuring that they conform to standards.

Displacement 3.5 CR and location of the materials and equipment is managed according to the logistics of the project of the work, with the means of transport and lifting set and safe.

3.6 CR tools, machinery and ancillary media are organized and maintained for the execution with safety and performance.

4 RP: Organize the phases of Assembly of the solar thermal installation, to follow the timetable established, controlling its execution and making appropriate adaptations from contingencies that may arise.

CR 4.1 the placement of sensors, and laying of pipelines is organised and supervised according to the specifications of the project.

CR 4.2 interconnecting tanks, heat exchangers, piping, pumps and other hydraulic elements, is monitored, ensuring fidelity to the project and the quality of its execution.

CR 4.3 installation and connection of the electrical system and control devices is organized and supervised, ensuring fidelity to the project and the quality of its execution.

CR 4.4 hydraulic connection with conventional support and auxiliary facilities are organized and monitored, ensuring fidelity to the project and the quality of its execution.

CR 4.5 installation of protections against corrosion, oxidation and mechanical impacts and the thermal insulation of pipes and elements is monitored in accordance with the specifications of the project.

RP 5: Organize tests for safety, operation and development of the solar thermal facilities, adjusting equipment and elements of regulation and control, controlling the process to ensure the established operating conditions.

CR 5.1 test plan for the commissioning of the solar heating system is organized and monitored, ensuring the realization of the statutory safety tests and operation requiring the installation and coordinating the procedures to be followed and their sequence.

CR 5.2 testing installations are verified, fulfilling regulatory requirements and ensuring that values conform to those required by the applicable regulations.

CR 5.3 adjustment of the elements of security, protection and control of the system coordinates and supervises, making is done as specified and the requirements of the process ensuring the balanced hydraulic circuits.

CR 5.4 emergency and alarm systems are monitored, verifying that they meet established contingency situations and in terms of efficiency.

5.5 CR operation and maintenance manuals are monitored, making it easier for the user.

6 RP: Organize the safety and health plan in the operations of installation of solar heating systems, controlling its execution to ensure the integrity of persons, of the media and its environment, and complying with the applicable rules.

CR 6.1 mounting of the solar heating system security plan is interpreted, planning resources for their development.

CR 6.2 installation mounting work is planned according to the requirements of the security plan, transferring personnel under his command, training, or information concerning the requirements of the security plan.

CR 6.3 professional risks of the mounting of the solar thermal installation are identified and control, managing the deployment and location of security infrastructures, as well as employment, operation and conservation status of personal protection and safety equipment.

CR 6.4 employment operating control, and conservation status of machines, vehicles, tools and other technical means used in the installation, verifying that they are in perfect condition for use.

CR 6.5 emergency plan related to the Assembly of the installation process is managed, paralyzing work when security measures are not complied with, or there is a risk for people.

CR 6.6 environmental risks are evaluated and controlled to avoid or reduce them to the minimum possible levels, respecting, in any case, the applicable regulations.

7 RP: Manage documentation related to the Assembly of the solar thermal installation processes, to ensure compliance with the legal requirements and the implementation of organizational criteria established by the company.

CR 7.1 documents of the project, symbolic diagrams, lists of materials, operation manuals and other technical documents are managed according to the requirements of the company and organizational criteria of clarity and control.

CR 7.2 the parts of work, delivery notes, invoices, control for certificates and other administrative documents are organized and controlled during the Assembly of the installation process.

CR 7.3 documents of topography, the systems of protection against Legionella, gathering the data for the liquidation and variations, with respect to the project in the technical specifications of elements, are monitored and collected to form the documentary basis of the work.

CR 7.4 documentation related to the necessary official permits in the work is managed before the possible legalization, subsidies and inspections.



Professional context: means of production: tools and measuring tools. Security equipments. The plant components: collectors, exchangers, tanks of expansion, storage tanks, pumps, circulators, pipes, valves, traps, thermostats, pressure switches, probes, resistors, motors, pipes, conductors, solenoid valves, measuring equipment, control equipment. Technical report of the installation or project. The installation drawing. Budget. Computer resources and order management applications. Technical product and material data sheets. Spreadsheets.



Products and results: organized and supervised installation of the solar thermal installation phases. Evidence of safety and performance and commissioning of the installation planned and supervised. Safety and health in the Assembly organized and controlled operations plan. Managed documentation of the Assembly processes.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly programs. Parts of the work, delivery notes, invoices, orders and other administrative documents. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Safety and health in the Assembly plan. Documents of topography. Documentation of official permits. Internal rules of work. Applicable regulations.



Unit 4 competition: Organize and control the maintenance of installations solar thermal level: 3 code: UC0848_3 realizations professionals and completion criteria: RP 1: organize the maneuvers and adjustment in the solar thermal facilities operations, controlling its execution, for the optimization of its operation.

1.1 CR signals and data, directly or through remote control and remote control, systems are interpreted to optimize the operation of the system through adjustment operations.

CR 1.2 different types of maneuvers and adjustments that have to be in the installation are determined, reporting and controlling its execution.

CR 1.3 maneuvers of putting into operation and stop of solar heating systems are monitored in accordance with the requirements of quality, efficacy and safety.
CR 1.4 related to climatic variations, adjustment and seasonal adaptation of facilities, operations are monitored in accordance with the requirements of quality, efficacy and safety.

CR 1.5 safety measures required in the maneuvers are monitored, ensuring control of risk to persons, the environment and own electric and hydraulic circuits.

CR 1.6 manoeuvres and tuning operations results are analyzed, drawing conclusions about the optimization of the performance and the safety of the installation.

2 RP: Develop plans of solar heating systems maintenance, keeping them updated and improving them, for your application.

CR 2.1 the technical information provided by the manufacturers of equipment and components used in solar thermal facilities is collected, using it in the development of maintenance programs.

2.2 CR company maintenance manuals, in line with the regulations, prepare and keep up to date.

CR 2.3 the definition of tasks, procedures and methods of intervention and removal/installation, checking ranges, time and human resources and materials needed to run on time and cost are checked, ensuring that they are contained in the installation maintenance program.

CR 2.4 quality control criteria are established for different phases in which the maintenance is organized.

CR 2.5 the critical points of the installations that involve greater risk of overheating, Frost, lack of energy supply or modification of normal parameters, are considered in the development of maintenance programs.

CR 2.6 established maintenance programs are verified, ensuring that they optimize the resources, determine the needs for external support and guarantee compliance with production targets.

CR 2.7 the procedures used in the preventive and corrective maintenance update, with the frequency stipulated, by incorporating the identified improvements.

CR 2.8 continuous improvement of maintenance management plans, testing of new techniques, the participation in the process of new products used in installations according, realized and they supervise.

3 RP: Organize the processes and procedures for preventive and corrective maintenance of solar heating systems, supervising them for your application.

CR 3.1 maintenance and repair of the installations is organised and monitored using technical and administrative documents received and generated.

CR 3.2 diagnosis of the failure or breakdown of equipment, element, or the solar heating system, monitors and controls, applying techniques of analysis of data taken to carry out the assessment, technical information exploitation and the installation history.

CR 3.3 specifications of materials and equipment used in the maintenance of solar heating systems are prepared for the management of its acquisition.

3.4 CR collection and distribution of stocks of materials, through the process of warehouse management, is organized and controlled under premises of effectiveness, efficiency and quality.

CR 3.5 human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the various types of maintenance, are coordinated and controlled under premises of effectiveness, efficiency and quality.

3.6 CR review thermal processes, pipes, tanks, exchangers, electrical equipment, probes, traps, pressure switches, and other elements subjected to review campaigns, are organized and controlled in order to get most of the maintenance is preventative.

CR 3.7 maintenance tracking is done by controlling the quality of its execution and the costs, obtaining indicators of control needed to establish comparisons that shape the lines of action most suitable solving contingencies with maximum efficiency and fulfilling the programmed objectives.

CR 3.8 data result of revisions or amendments to the installations, control, compile them to maintain up-to-date databases and information systems.

CR 3.9 tabs of control of the periodic maintenance of the elements, as well as the development of the historical database is managed using technological systems.

CR 3.10 attention to notices and claims for problems or failures in the installation is managed with efficiency and quality.

RP 4: Develop the solar heating energy management program, controlling its application.

CR 4.1 power generated by the plant is measured, with the frequency stipulated, evaluating the actual contribution of solar energy needs total.

CR 4.2 hot water consumption data is monitored by detecting possible deviations from the initial values and registering the historical.

CR 4.3 energy consumption accounting controls, tracking their evolution and taking corrective action.

RP 5: Organize the rules and measures of prevention of risks, safety, health and environmental maintenance of solar heating systems, to monitor its implementation.

CR 5.1 professional risks arising from maintenance intervention are identified and controlled, by applying the security plan to maintain.

CR 5.2 infrastructure of health and safety of the installation are handled, developing your deployment and location, and by controlling the compliance with the established procedures.

CR 5.3 personal protection and safety equipment used in the maintenance work are monitored by checking its operation and State of conservation.

CR 5.4 employment, performance and condition of machinery, vehicles, tools and other equipment used in the work, are monitored from the point of view of safety.

CR 5.5 emergency plan related to the maintenance of the installation process is managed.

CR 5.6 environmental risks are evaluated and controlled to avoid or reduce them at all times.

6 RP: Controlling documentation related to the processes of exploitation and maintenance of installations of solar thermal energy, to monitor their activity.

CR 6.1 the parties of labor, delivery notes, invoices, orders and other administrative documents are organized, controlling them in the maintenance process.

CR 6.2 the demands of customers are recorded, convey and serve promptly.

CR 6.3 administrative procedures and the quality of the maintenance management systems are applied, supervising them in their execution.

CR 6.4 inventories are reviewed, updated and managed, by controlling the information related to the high, low, and repair.

CR 6.5 maintenance mobile parks, tools, machinery, communications systems and other equipment, controlling, checking that it has carried out in accordance with technical requirements.

CR 6.6 management systems used in the operation and maintenance of solar heating processes are supervised, verifying that they conform to set operating parameters.



Professional context: means of production: tools and measuring tools. Security equipments. The plant components: thermostats, switches, probes, sensors, heat exchangers, expansion tanks, storage tanks, pipes, valves, traps, resistors, motors, pumps, circulators, electrical panels, pipes, drivers, solenoid valves, measuring equipment, control equipment.



Products and results: plans for maintenance of the facilities developed, updated and monitored. Energy management program developed and controlled. Documented maintenance operations.



Used or generated information: projects, cutting and assembly drawings. Schemes and diagrams of principle. List of parts and components. Programs and maintenance procedures. Technical specifications. Service manuals and use. Operating instructions. Databases. Historical maintenance. Information about alarms generated and detected in the installation itself or monitoring system. Reports from previous predictive maintenance. List of pending jobs. Specific computer applications. Health and safety plan. Internal rules of work. Applicable law, local government law.



TRAINING module 1: studies of viability of facilities solar level: 3 code: MF0842_3 associated with UC: determine the viability of projects of solar duration: 120 hours capabilities and evaluation criteria: C1: quantify the energy needs of different types of users, classifying them and analyzing them to diagnose the possibility of a solar installation.

CE1.1 in a practical course of study in a building with several dwellings where there is demand for electric and thermal energy for domestic hot water and space heating:-detail the ways of life and required services.

-To quantify the electricity for lighting and force, and for general community services.

-To quantify the electricity for lighting and other applications in each of the types of housing.
-Describe the seasonal variability, times of electricity consumption and simultaneity factor.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify the heat energy for each dwelling and for the whole of all of them, analyzing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.2 in a practical course of study of a single-family house in which there is demand for electric and thermal energy for hot water, heating and cooling:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.3 in a practical course of study of a pool heated by solar energy, with support system:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

C2: Define the solar potential in an area determined by the realization of solar installations, using procedures and established media, and complying with the applicable rules.

CE2.1 determine the parameters of solar radiation in a location for which there are elaborate tables that allow to obtain the wanted values directly.

CE2.2 determine the parameters of solar radiation in a location for which there are elaborate tables in which there is to interpret and correlate different results to make a reasonable estimate.

CE2.3 explain the most common models in empirical of different types of solar radiation definition globally.

CE2.4 measure and record data of solar radiation through the use of the Pyranometer, pirheliometro and other usual log devices.

CE2.5 determine, for a location and given surface, the possibilities for realization of a solar thermal or photovoltaic, reasoning the potential and possible use of energy.

C3: Develop proposals for solar installations, aimed at customers, in which the characteristics of the installation and the analysis of the regulatory framework and applicable grants are collected.

CE3.1 study energy needs by assessing them to justify the use of thermal or photovoltaic solar energy.

CE3.2 reason, in the case of solar installations, the site suitable for the collectors, panels and equipment according to the conditions of shadow, obstacles and other determining factors in the use of solar panels, studying aesthetic factors and Visual associates.

CE3.3 reason, in the case of solar heating systems, the characteristics of the elements and components of the circuits of the installation.

CE3.4 reason, in the case of solar photovoltaic systems, the characteristics of the elements and components of the circuits of the installation.

CE3.5 report, outlining the regulatory framework related to the authorization of the installation and the demands derived from the same.

CE3.6 report, outlining the legal framework of possible grants to the installation and the demands derived from the same.

CE3.7 make an indicative budget of a solar thermal that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.8 make an indicative budget of a solar photovoltaic that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.9 make an economic assessment of the investment project by analyzing the most relevant indicators.

CE3.10 write the document concluded with the proposal of the solar heating system using computer tools with general purpose applications.

Skills whose acquisition must be completed in a real work environment: C1 full; C3 on CE3.7 and CE3.8.

Other capabilities: communicate effectively with customers.

Treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Have initiative to promote projects.

Participate and collaborate actively in the task force.

Ability to adapt to the context and needs of the people.



Contents: 1. fundamentals of solar power the Sun as energy source. The Sun and the Earth.

Solar energy conversion. The accumulation of power.

Integrated energy systems.



2 location and feasibility of solar energy needs facilities. Calculation. Solar potential of an area. Tables and measuring systems.

The location factors. Orientation, inclination and shadows.

Architectural and structural systems. Architectural integration.

Viability. Economic and financial factors.



3. classification of solar heating thermal solar energy. Global operation. Solar collectors. Operation, Constitution and connection. Elements of a solar thermal installation and specifications: sensors, primary and secondary circuits, heat exchangers, storage tanks, expansion tanks, circulation pumps, pipes, traps, flow meters, valves and elements of regulation and control.

Solar cooling systems. Applicable regulations.



4. classification of solar photovoltaic photovoltaic solar energy. Global operation.

Solar panels. Operation, Constitution and connection.

Elements of a solar photovoltaic installation connected to network and specifications.

Solar tracking systems.

Elements of an isolated solar installation and specifications.

Energy accumulation and support systems.

Solar cooling.

Applicable regulations.



5. promotion of solar promotion of renewable energies. Models and energy policies. Solar energy international, national and regional context.

Economic and financial studies of solar installations.

Code construction technician, bylaws and applicable regulations.

Regulatory framework of subsidies. Legislation and calls.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the determination of the viability of solar installations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: projects of installations solar thermal level: 3 code: MF0846_3 associated with UC: develop projects of solar heating duration: 240 hours capabilities and evaluation criteria: C1: analyze the types of solar heating systems, by selecting those adapted to the constructive characteristics, the energy needs of the user and the applicable regulations.

CE1.1 listed the main rules applicable to thermal solar installations.

CE1.2 describe the characteristics of the different solutions of installations in multi-family buildings with centralized solar accumulation.
CE1.3 describe the characteristics of the different solutions of installations in multi-family building with solar build individual and mixed.

CE1.4 describe the characteristics of the different solutions of solar heating systems in single-family construction.

CE1.5 in a practical course of development of solar heating, multifamily building projects:-describe the functions of the elements that comprise the installation.

-Identify the legislation, mandatory or not, affecting in the development of the project.

-Determine the documentation to develop according to the applicable regulations.

-A report of required requirements: technical specifications, characteristics of the materials and applicable regulations.

CE1.6 in a practical course of development of solar heating for single-family construction projects:-describe the functions of the different elements that comprise the installation.

-Identify the legislation, mandatory or not, affecting in the development of the project.

-Determine the documentation to develop according to the applicable regulations.

-A report of required requirements: technical specifications, characteristics of the materials and applicable regulations.

CE1.7 in a practical case of project development of solar heating, heated pool:-describe the functions of the different elements that comprise the installation.

-Identify the legislation, mandatory or not, affecting in the development of the project.

-Determine the documentation to develop according to the applicable regulations.

-A report of required requirements: technical specifications, characteristics of the materials and applicable regulations.

C2: Determine the elements comprising the solar heating, using media procedures, and complying with the applicable rules.

CE2.1 calculations of energy balance of thermal solar installations based on climatological data, taking into account expected daily and seasonal consumption, the contributions of the supporting facilities and the efficiency of the entire system.

CE2.2 determine the characteristics of each of the elements, equipment, components and materials, through technical calculations based on objective and reliable data and using manuals, tables and specific applications of calculation.

CE2.3 in a practical course of development projects of solar heating systems, installation compact single-user:-identify the constituent elements of the installation.

-Perform or complete schemes of the parts of the installation.

-Determine the characteristics of the elements of the installation.

-Select from commercial catalogs, equipment and materials from the defined characteristics.

-Sized stands, benches and other items subject to mechanical stress.

CE2.4 in a practical case of project development of solar heating in a building with several dwellings:-identify the constituent elements of the installation.

-Perform or complete schemes of the parts of the installation.

-Determine the characteristics of the elements of the installation.

-Select from commercial catalogs, equipment and materials from the defined characteristics.

-Sized stands, benches and other items subject to mechanical stress.

CE2.5 in a practical case of project development of solar heating, in a heated pool:-identify the constituent elements of the installation.

-Perform or complete schemes of the parts of the installation.

-Determine the characteristics of the elements of the installation.

-Select from commercial catalogs, equipment and materials from the defined characteristics.

-Sized stands, benches and other items subject to mechanical stress.

C3: Draw, ideal support, plans, principles of operation, outlines general and details that make up the graphic documentation of the mounting of the solar heating project.

CE3.1 in a practical course of development of thermal solar installations, installation:-choose the system of graphic representation, as the case may be.

-Select the rules to be used in the graphical representation.

-Select tools, supports and formats for the realization of the plane.

-Identify and name each of the drawings of the project.

-Draw and dimension levels in a clear and concise manner.

C4: Drawing up reports, budgets and other technical documentation of the project to the Assembly, maintenance and use of the solar heating system.

CE4.1 formalize technical paper with calculations and justifications for the different parts of the solar heating system.

CE4.2 perform budget facilities detailing concepts of spending and analyzing the possibilities of grant and estimates of depreciation.

CE4.3 develop the arrangements of the elements of the project especially according to dimensional calculations and orientation.

CE4.4 perform the operating manual which includes: installation instruction, commissioning, use and maintenance, with their corresponding schemas.

CE4.5 compose and assemble, neatly, the project documents and the technical dossier, getting a proper presentation.

C5: Plans of safety and health for the installation of solar heating systems.

CE5.1 define the risks arising from falls, in the same or a different level, entrapments and falling objects.

CE5.2 define thermal risks originating in the solar system.

CE5.3 define the electrical hazards associated with the outer circuits, high temperature and other extreme conditions.

CE5.4 detailed emergency plans that are implanted in the installation of solar heating systems.

CE5.5 formalize and document emergency plans that are going to be implanted in the installation of solar heating systems.

CE5.6 describe the environmental conditions present in the installation of solar heating systems.

C6: Develop documentation of record for the administrative approval and to obtain, where appropriate, the corresponding subsidies.

CE6.1 describe the administrative processes which remains the record for the approval of the installation.

CE6.2 perform the necessary documents for the administrative authorisation of the installation.

CE6.3 describe the administrative processes following the record for obtaining grants.

CE6.4 prepare reports and other documents of the grant record.

CE6.5 in practical case of project development of solar heating, from the technical and architectural solutions already raised:-define the rules and procedures necessary to obtain the authorization of the installation.

-Define the possible legal framework to get grant to determine the requirements and the process to follow in your application.

-Conduct a study of the installation amortization, establishing reasonable hypothesis of energy consumption, operation of the installation, solar weather and price of energy.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.5, CE1.6 and CE1.7; C2 CE2.3, CE2.4 and CE2.5; C3 on CE3.1; C6 with respect to CE6.5.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Demonstrate a good make professional.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Propose alternatives with the aim of improving results.

Interpret and execute work instructions.

Demonstrate flexibility to understand changes.



Contents: 1. thermal installations in buildings concepts and basic magnitudes.

Facilities and production of sanitary hot water and heating systems.

Facilities and air conditioning equipment.

Transport of fluids carriers networks. Diffuser elements. Regulation, control and measurement of consumption in heating systems.

Assembly of heating processes. Testing and commissioning of heating systems.

Maintenance and operation of heating systems.

Technical documentation of the heating systems: technical report.

Regulation of heating systems in buildings and other applicable regulations.



2 projects in solar heating needs that must be considered in the development of a project. Sources of information.

Assessment of alternatives. Technological and economic criteria.

Components of a project: data involved, required standards, descriptive and supporting memory, plans, specifications, budgets.

Security plan.



3. calculation of solar heating installations configuration types.

Most important calculation factors and variables. Methods used. Simplified calculation of hot water facilities. Number of sensors.

Calculation of pools heated by solar energy.

Simplified calculation of heating and cooling.

Calculation of energy systems of support.

Specific applications of calculus.



4. Design and representation of solar heating systems
Design of electrical and hydraulic circuits.

Planes of hydraulic circuits. Planes of the wiring diagrams. Drawings of the necessary civil works. Drawings of details. Assembly of the different elements of the installation drawings.

Specific computer aided design applications.



5. integration of solar heating systems aesthetics and architectural integration.

Solar floor heating.

Integration of solar installations. Passive solar architecture.

Conventional energy and solar energy.

Distributed systems of thermal solar energy.



6. administrative processes in solar heating grants regulatory framework. Legislation and calls. Processing of grants.

Technical and administrative documentation.

Promotion and management of facilities. Submission of tenders.

Applicable regulations.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain knowledge and techniques related to the development of projects of solar heating systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: Organization and CONTROL of the Assembly installations solar thermal level: 3 code: MF0847_3 associated with UC: organize and control the mounting of solar heating duration: 120 hours capabilities and evaluation criteria: C1: analyze the technical documentation of solar heating systems, determining the activities and resources for the Organization of the Assembly process.

CE1.1 describe the documents that make up a project, technical report or a manual of installation of a solar heating system distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE1.2 describe the General stages of development of a process Assembly of a solar heating system, identifying the technical phases of Assembly of the same from schedules and plans.

CE1.3 represent symbolic diagrams, sketches and isometric diagrams of a solar heating system and its components, facilitating its mechanical and electrical Assembly.

CE1.4 handle and interpret graphic information of solar heating in representation by means of computer systems by performing operations of copying or modification of data, with standardized procedures pertaining to specific applications of design and representation of solar heating systems.

CE1.5 describe the fundamental requirements of the regulations applicable to such facilities.

CE1.6 complete technical and administrative documentation related to the execution of the installation mounting, classifying documents according to the typology and the management process that should be followed.

CE1.7 in a so-called practical organization and control of the installation of a solar thermal installation, from the drawings and technical documentation:-identify the components of the installation, locating its location.

-Specify the characteristics of each of the elements that compose it: collectors, exchangers, storage tanks, circulators, pipes, measuring equipment, control equipment.

-Relate the composition and characteristics of the solar heating system with the requirements of the applicable regulations.

-Reason the operation of the system, describing the function, structure and composition of the parts that make it up.

-List and describe Assembly management documents associated with the installation.

C2: To develop programs of sourcing for the installation of solar heating systems.

CE2.1 use administrative and technical information derived from the technical project, developing programs of supply for the Assembly according to methods used in strategic planning.

CE2.2 perform the provisioning plan coordinating the plan of mounting with possibilities of provisioning and storage, ensuring the delivery at the right time.

CE2.3 define and develop quality control criteria in phases that make up the supply.

CE2.4 design provisioning systems and mounting safety equipment.

CE2.5 in a practical course of organization and control of the installation of a solar heating system for multi-family building, based on the plans of the installation and commissioning manuals:-determine the technical requirements applicable to components.

-Determine the criteria of quality control in the reception of components.

-Manage the procurement of materials and equipment logistics.

C3: Develop work plans for the installation of solar heating systems according to the project and established work procedures.

CE3.1 describe the different techniques that are used in the Assembly of solar heating processes: Assembly, screwed, leveling, riveting, welding, anchorage, connection.

CE3.2 relate the human resources involved in different phases of operations of installation of solar heating systems.

CE3.3 describe the procedures of optimization of Assembly work.

CE3.4 represent the schemes of work organization and time control in the installation of solar heating systems through diagrams and schedules appropriate to their level.

CE3.5 raise the start-up of the installation, defining the various tests that will be carried out.

CE3.6 describe and assess the implementation of the safety and health plan in the realization of the installation.

CE3.7 in a practical course of organization and control of the installation of a solar thermal installation, which prepares the work plan corresponding to a facility for building, from the planes of the installation and commissioning manuals:-determine the requirements of the areas of work in the phases of Assembly.

-Select the materials, tools and other technical resources to get the job done.

-Determine the human resources required in different phases.

-To determine the adequacy of the components to the technical requirements, preparing a report of non-conformities.

-Determine the sequence of assembly using a flowchart.

-Define the Assembly techniques on the key points of the installation.

-Determine the tests and commissioning operations.

-Determine the corrective measures to be undertaken in anticipation of possible deviations in relation to the work plan.

-Consider the implementation of the security plan.

C4: Justify the necessary resistant structures in the solar thermal installation constructive solutions and control the General Assembly from the technical documentation operations, complying with the applicable rules.

CE4.1 rethink the general design of the installation, comparing data and plans of the project with the reality of the land and/or buildings involved.

CE4.2 determine different types of efforts to subject the structural elements of the installation, assessing the adaptation of the geometry of the structure to them.

CE4.3 perform simple calculations to determine the dimensions of new elements required in the redefinition of the work and which have not been determined in the project or memory.

CE4.4 Select, from technical catalogues, resistant systems, clamping and Assembly of structures necessary anchor, choosing the most appropriate depending on installation, of the environment, of the land or building.

CE4.5 in a practical course of organization and control of the installation of a solar thermal installation, starting from the project or memory, detailing the design of the resistant structure of the installation:-determine the degree of adaptation of the solution to the reality of the land.

-Define unspecified constructive detail solutions.

-Calculate the dimensions of the hardware, shoulder straps and other resistant elements of the installation.

-Identify the most problematic points from the point of view of the efforts to which they are subject.

-Choose the system of anchoring and fastening of structures more appropriate.

-Detailing the consequences of rupture or failure of critical resistant structures, proposing possible solutions of reinforcement in more serious situations for people or the elements of the installation.

-Check Assembly of the structures.
C5: Control the General Assembly from the technical documentation operations, complying with the applicable rules.

CE5.1 describe the operations of control of the Assembly and connection of solar thermal collectors.

CE5.2 describe the operations of control of the Assembly and connection of storage/accumulation of power systems.

CE5.3 describe the operations of control of the Assembly and connection of exchangers and circulators and their interconnecting piping.

CE5.4 justify the requirements for installation and integration of the solar thermal installation support facilities, describing the control points for the case of a gas boiler.

CE5.5 explain the monitoring tasks related to computers and electrical installations for the protection, regulation and control.

CE5.6 select, from technical catalogues, elements and additional equipment not defined in the project or memory, depending on the characteristics of the installation.

C6: Define the criteria of quality of installation and commissioning of solar heating systems from the technical documentation, compliance with the applicable rules.

CE6.1 define the demands required in the preparation of the work area in accordance with the requirements of the work itself, identifying the specific risks and proposing corrective measures.

CE6.2 carry out plans for the movement of equipment and materials, and its location according to the work to be carried out under conditions of safety.

CE6.3 define critical supervision of the Assembly points to ensure their integrity and sealing.

CE6.4 define the criteria for alignment, orientation and tilt positioning of sensors.

CE6.5 define the criteria for supervision of the Assembly of pipes and hydraulic elements by verifying the possible expansions and ensuring watertightness.

CE6.6 describe the quality criteria in the finish of the electrical system of power and control, according to established procedures and rules of application.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.7; C2 regarding CE2.5; C3 on CE3.7; C4 on CE4.5.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Demonstrate creativity in the development of the work performed.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Demonstrate creativity in the development of the work performed.

Propose alternatives with the aim of improving results.



Contents: 1. Organization of the installation of solar heating systems organization and preparation of the mounting. Strategic planning techniques.

Methodological specifications for mounting sensors, heat exchangers and hydraulic equipment.

Documentation of the materials. Machinery and equipment used in the Assembly.

Fundamental requirements of the applicable regulations: regulation of heating systems, electrical regulatory, safety, quality and environment.



2. resistant structures in solar installations types of efforts. Resistant structures.

Geometry and basic calculations.

Shares of wind and snow.

Anchorage systems.

Techniques of assembling structures.



3. control of installation of solar heating systems procedures and operations of preparation and layout of the facilities.

Civil works: displacement and hoisting of materials and equipment. Identification and selection of equipment and necessary elements for the Assembly based on the plans of the installation.

Adaptation and improvement of facilities.

Techniques and Assembly, settlement, alignment and clamping operations.

The different elements of a solar heating system mounting. Quality in the Assembly.

Technical requirements specifications. Technical documentation of the work. Reports.



4 operation of solar thermal facilities organization of hydraulic tests. Adjustment of control circuits. Critical control points.

Interconnection of the installation of support.

Technical documentation related to the start-up.



5 security plan in the Assembly of solar heating systems General safety measures. Management of security in the hoisting of loads. Safety management to the risks of electrical origin. Safety management to the risks of thermal origin.

Prevention and environmental protection. Emergency management. Communication systems.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Organization and control of the installation of solar heating systems, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: Organization and maintenance of installations solar thermal level CONTROL: 3 code: MF0848_3 associated with UC: organizing and controlling the maintenance of solar heating duration: 90 hours capabilities and evaluation criteria: C1: analyze the technical documentation of solar heating systems determining the activities and resources, to plan the maintenance process.

CE1.1 describe the technical documentation referred to the solar thermal, necessary to make your maintenance planning.

CE1.2 identify the project or maintenance plan, equipment and elements of the solar heating to plan maintenance and energy management.

CE1.3 determine the critical points of a solar heating system that malfunctions, their causes and functional consequences, can occur by analyzing the security of it.

CE1.4 in a so-called practical organization and control of the maintenance of solar heating, from the Handbook of maintenance instructions, plans, diagrams and other technical documents:-determine the operations that must be performed in the energy management of the installation and the maintenance.

-Determine the type of human and material resources needed to carry out preventive maintenance.

-Determine the type of human and material resources needed to carry out the most common corrective maintenance interventions.

-Determine the type of human and material resources needed to take more usual generation and consumption data.

C2: Develop written procedures of operations of solar heating systems, determining tasks, materials, media, and criteria for the control of the execution.

CE2.1 Select, from among the set of preventive maintenance of a solar heating system, those requiring written procedures, justifying his selection.

CE2.2 write the procedure for the detection of failures most common in different types of facilities.

CE2.3 produce different material specifications to manage its acquisition in the maintenance process.

CE2.4 explain the monitoring tasks related to the acquisition of supplies and stock control.

CE2.5 write preventive maintenance procedures common in different types of facilities.

CE2.6 write the procedures for measuring of generation and consumption more common in different types of facilities.

CE2.7 describe the security in the process of maintenance plan and determine the means and safety equipment that must be taken into account for the realization of the service, generating the necessary technical documentation in the intervention process.

CE2.8 in a practical course of organization and control of the maintenance of solar heating, for the application of the preventive and corrective maintenance, in which different types of parts or equipment, with the help of the technical documentation should be replaced:-set the order or sequence of the different tasks of the disassembly and Assembly, detailing previous operations related to security.

-Define the specifications of the operations to be performed.

-Describe the technique that will be used in the different tasks, setting materials, media, tools, time and human resources.

-Consider the requirements and tasks relating to the safety of the operation.

C3: Apply programming techniques that optimize resources to develop intervention and maintenance tracking programs.
CE3.1 explain the different scheduling of preventative maintenance techniques and the requirements that must be met in each of them.

CE3.2 explain the characteristics of the graph of workloads.

CE3.3 analyze the Organization, performance and application of a specific software application for the management and control of the maintenance.

CE3.4 detailing the operation of the remote control and remote measurement of solar heating systems.

CE3.5 explain components of the costs of maintenance and systems to optimize them.

CE3.6 in a practical course of organization and control of the maintenance of solar heating, in the elaboration of a plan of maintenance of one or more facilities:-determine the types of intervention and moral and civic education.

-Establish workload of human resources with the necessary material means to carry out the maintenance.

-Prepare the list of spare parts and consumables that are needed for that period.

-Perform an annual maintenance budget, breaking down the cost into its components: parts, unforeseen stops, labor, displacement, tax and other associated costs.

C4: Monitor general peacekeeping operations in solar heating systems from the technical documentation, applying standard operating procedures, regulations and acting under safety rules.

CE4.1 describe the operations of maintenance and repair of brackets, anchors and other structural components of the solar thermal facilities.

CE4.2 describe the operations of maintenance and repair of the collectors, pipes, tanks, heat exchangers and other components hydraulic.

CE4.3 describe the operations of maintenance and repair on electrical, electronic systems and control.

CE4.4 identify the critical points in the maintenance of the solar thermal facilities.

CE4.5 identify operations that check is performed when the preventive maintenance and repair of solar heating systems.

CE4.6 describe procedures for the operation of a solar heating system once it has been repaired or peacekeeping operations made him.

CE4.7 in one or several practical cases of organization and control of the maintenance of solar heating, in the realization of revisions or preventive maintenance and repairs on-site operations:-check has been identified the fault and possible causes that obeys.

-Check that the operations to be raised are those required and the means to carry out them are the ideal.

-Catalogues, if necessary, select items and additional equipment not defined in the project or memory.

-Supervise the operations of checking and repair conforms to the established work procedures.

-Check that there are safety measures in carrying out all the operations.

-Supervise the commissioning of the solar heating system.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.4; C2 regarding CE2.8; C3 on CE3.6; C4 regarding CE4.7.

Other capabilities: treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Maintaining an assertive attitude, empathic and conciliatory with others; showing cordiality and kindness in the deal.

Convey information with clarity, orderly, structured, clear and precise; respecting the channels established in the organization.

Responsible for the work developed and the fulfilment of the objectives.



Contents: 1. the maintenance of solar heating systems maintenance organization. Function, objectives and types. Preventive and corrective maintenance.

Planning and scheduling of maintenance. Maintenance plans.

Preventive maintenance tasks.

Posting of generated energy and consumption. Automatic telemetering and telecontrol systems. Calculation of needs. Load planning. Determination of times.

Documentation for planning and programming. The work order.

Safety plan in the maintenance of solar heating systems.



2. economic management of maintenance of solar heating, the cost of maintenance. Analysis of costs. Evaluative criteria for replacement of machinery and equipment. Optimization of the maintenance.

Real solar contribution to total energy needs.

Quality in the provision of the service.

Economic and administrative documentation on maintenance. Invoices and budgets. Book of the building and other official documents related to the registration, inspection and control.



3 warehouse and materials supplies coding and maintenance of solar thermal facilities reception. Organization of the store. Stock management. Homologation of suppliers.



4. management of the maintenance of solar heating assisted by computer databases. Creation of data base.

Specific computer applications of preventive maintenance, corrective and energy management. Management and storage of shopping.

Predictive maintenance.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Organization and control of the maintenance of thermal solar installations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex IX professional qualification: professional family buildings energy efficiency: energy and water level: 3 code: ENA358_3 competition general manage the efficient use of energy, assessing the efficiency of energy and water in buildings, collaborating in the process of energy certification of buildings, determining the feasibility of implementation of solar systems, promoting the efficient use of energy and making suggestions for improvement , with the required quality and in compliance with the applicable rules.



Competition UC1194_3 units: assess the energy efficiency of buildings UC1195_3 facilities: collaborate on the energy certification of buildings UC1196_3 process: manage the efficient use of water in building UC0842_3: determine the viability of projects of solar UC1197_3: promoting the efficient use of energy environment professional scope professional develops his professional activity in the area of production dedicated to the energy efficiency of buildings , in entities of public or private nature, businesses of all sizes, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the energy sector, both in the productive activities in that is the promotion, Assembly, exploitation and maintenance of facilities for the energy supply of buildings for residential and non residential use of administrative, commercial, educational, health and others, as in companies specializing in energy rehabilitation and management, energy audits, regulatory agencies studies in architecture, engineering and building developers.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Promoters of energy efficiency programs assistants of processes of energy certification of buildings energy managers training associate (870 hours) training modules MF1194_3: evaluation of the efficiency of the installations in buildings (270 hours) MF1195_3: energy certification of buildings (270 hours) MF1196_3: efficiency in the use of water in buildings (120 hours) MF0842_3: (120 hours) MF1197_3 solar feasibility studies : Promotion of the efficient use of energy (90 hours) unit of competition 1: evaluate the efficiency energy the facilities of buildings level: 3
Code: UC1194_3 professional accomplishments and performance criteria: RP 1: check the generators of heat and cold, fans, circulators and pipe networks and distribution channels to verify that they meet the applicable regulations in relation to the energy efficiency of the installation.

CR 1.1 generators of heat and cold, fans, circulators, pipe networks and distribution channels are identified and located directly or from the technical documentation, determining the technical characteristics of the same and checking compliance with the applicable regulations.

CR 1.2 simultaneous maximum energy demand of the facilities is determined from catalogues and manuals, through regulatory experimental trials, through the invoices of the companies supplying, or through direct information supplied by the user, whereas the variations for the different hours of the day and month of the year.

1.3 CR earnings or loss of heat through the networks of distribution of fluid carriers are determined by calculations based on tables and nomograms, using instruments of measurement or by regulatory experimental tests.

CR 1.4 indications of instruments of measurement of flow rate, pressure, temperature or any other variable that controls on energy facilities are interpreted, checking that their values are within the parameters of efficient operation.

CR 1.5 performance of generator, teams of propulsion of fluids carriers and terminal units is obtained according to the technical procedure, from catalogues and manuals or reference by experimental tests, regulatory compliance with the applicable rules.

1.6 CR status, technical characteristics and suitability of the thermal insulation of pipes and ducts for distribution of heating and cooling networks are verified, checking that they comply with the applicable regulations.

CR 1.7 maintenance registration is verified, checking that it is up-to-date and that it complies with the applicable rules, reporting, where appropriate, deviations or breaches observed.

2 RP: Check the systems of control, remote management, measurement instruments and energy recovery systems to verify that they meet the applicable regulations in relation to the energy efficiency of the installation.

CR 2.1 the elements of the systems of control, remote management, measuring devices and installation energy recovery systems are identified and located from the available documentation.

CR 2.2 indications for instruments of measurement of flow rate, pressure, temperature or any other variable that controls on energy facilities, are interpreted to obtain measurement according to the established procedure.

CR 2.3 the accurate functioning of elements of control and measuring devices is checked, in each case, according to the applicable regulations.

CR 2.4 interaction of subsystems of control with the generation system is verified, checking that it is energy efficient.

CR 2.5 the efficiencies of the systems of energy recovery by free cooling by external air, exhaust air heat recovery or zoning, among others, are obtained from catalogues and manuals, or by regulatory experimental tests.

CR 2.6 maintenance registration is verified, checking that it is up-to-date and that it complies with the applicable rules, reporting, where appropriate, deviations or breaches observed.

3 RP: Check, according to established procedures, facilities for indoor lighting and outdoor lighting to determine that they comply with the requirements of energy efficiency, in accordance with the applicable regulations.

CR 3.1 elements of lighting installations are identified and located from the available documentation.

CR 3.2 performance of the luminaires installed is identified from tables and nomograms, or is determined by measuring instruments or regulatory experimental trials, checking that they comply with the applicable rules.

CR 3.3 the value of energy efficiency in the areas of lighting installations is calculated, ensuring that it complies with the applicable rules.

3.4 CR the existence and adequacy of control and regulation systems checks to optimize the use of natural light and the applicable regulations.

CR 3.5 maintenance registration is verified, checking that it is up-to-date and that it complies with the applicable rules, reporting, where appropriate, deviations or breaches observed.

4 RP: Check the compliance with the requirements of use of renewable energies and limitation of the use of electricity in energy facilities of buildings, in accordance with the applicable regulations.

CR 4.1 conventional energy consumption data are obtained by playing the Bills.

CR 4.2 devices accounting for consumption and time counters readings are recorded and processed according to the procedure laid down.

CR 4.3 part of total energy demand covered with the contribution of conventional energy is determined, and checks that it complies with the limitations required by the applicable regulations.

CR 4.4 energy demand minimum to meet with renewable energy for production of domestic hot water, pool heating and electricity production, among others, is determined according to the procedure laid down in the applicable regulations.

CR 4.5 compliance with the requirements of use of renewable energy in energy plants planned or carried out checks in accordance with the regulations, reporting, where appropriate, deviations or breaches observed.

5 RP: Reporting with suggestions for improvement to increase the energy efficiency of installations, in accordance with the applicable legislation.

CR 5.1 determine the critical points for the efficient operation of the system, establishing the causes why optimal energy consumption, is not achieved either type technical or related to habits and behaviors of users.

5.2 CR technologies and technical systems of improvement are evaluated and selected, making calculations and schemes needed for your application and determined the margins of improvement in the efficiency of the whole.

5.3 CR reports and descriptive reports of the adaptation and improvement of heating and lighting are developed, incorporating the necessary technical, efficiency, environmental and economic justifications.

6 RP: Organize rules and measures of prevention of risks, safety, health and environmental applicable in the inspection operations of the energy efficiency of facilities, supervising its execution.

CR 6.1 identify occupational risks resulting from the intervention of the energy efficiency of facilities inspection and control.

CR 6.2 the management, deployment and location of thermal plant security infrastructures, is monitored and controlled.

CR 6.3 employment, operation and conservation status of personal protection and safety equipment used in the work of inspection are monitored to ensure its operation.

CR 6.4 the implementation of the security plan with regard to the heating systems, is monitored.

CR 6.5 emergency plan related to the inspection of the efficiency of installations process is monitored.

CR 6.6 environmental risks arising from the inspection of the efficiency of installations process are evaluated and control to take appropriate preventive or corrective measures.



Professional context: means of production: projects and pre-projects. Drawing tools. Applications of general purpose and reference used in the processes of energy inspection. Energy variables measuring equipment. State of facilities diagnosis equipment, analyzers, thermal imaging cameras, Ultrasonic sensors to detect air leaks, CO2 sensors, sensors of differential pressure (for filters). Anemometer of thread, machine diagnosis of units and refrigeration equipment. Contrast, color and distance detectors.



Products and results: proven efficiency of energy facilities of buildings. Proposals for the improvement of the energy efficiency of buildings facilities. Supporting documents in compliance with requirements of energy saving and efficiency.



Used or generated information: energy saving programs. Energy tracking indexes. Projects. Book of the building. Certificate installation. Use and maintenance manual. Certified maintenance. Certificate of inspection. Registration of operations. Consumption accounting systems. Reports and technical and application recommendations. Emergency and security plans. Energy certification of buildings and equipment. Internal rules of work. Applicable regulation of heating systems in buildings and in construction.



Unit 2 competition: Collaborate in the process of certification energy of buildings level: 3 code: UC1195_3 realizations professionals and performance criteria:
RP 1: collaborate in checking that the constructive parameters of a building, in a given climate zone, comply with applicable regulations to limit its energy demand, using tools and software applications specifically approved for that purpose.

CR 1.1 data of constructive parameters of the building is carried out previously to obtain the information needed for analysis.

1.2 CR constructive parameters of the walls and interior partitions that make up the thermal envelope of the building is calculated using, where appropriate, tools and certified computer application programs.

CR 1.3 constructive parameters of the building are compared with the minimum data that required by the regulations, in compliance with the limitation of the demand for energy, using, where appropriate, tools and certified computer application programs.

CR 1.4 condensation occurring on the surface and inside of the closings are verified, checking that they are within the legal limits.

1.5 CR infiltrations of air in the building, which cause energy losses, are verified, checking that they are within the legal limits for normal conditions of use of the building.

CR 1.6 compliance with limitation of the energy demand of the building is assessed, by comparison with the corresponding building of reference, using, where appropriate, tools and certified computer application programs.

2 RP: Collaborate on the energy rating of buildings, in project or built, to determine their energy characteristics, according to the methodology established by the applicable legislation and using software applications specifically approved for that purpose.

2.1 CR the contribution of passive solar systems and solar protection are considered in the calculation of the energy demand process.

CR 2.2 the half time performance of heating, hot water, air conditioning, ventilation and lighting is considered in the process of calculating the consumption of final energy.

CR 2.3 systems of air conditioning or electricity production based on renewable sources of energy and electricity produced by cogeneration are calculated, determining their influence on satisfaction of the energy demand of the building.

CR 2.4 data obtained on energy demand of the building are entered into the computer application of reference to calculate the energy consumption of the building.

CR 2.5 features of building of reference, where appropriate, be used to obtain the qualification are determined as set out by regulation.

2.6 CR the energy rating of the building index is obtained using the formulas established by regulation, the calculated data and those obtained from recognized documents.

CR 2.7 technical specifications required by legal accreditation of energy rating or label is completed according to the applicable regulations.

CR 2.8 data of the installations of the building is carried out previously to obtain the information needed for analysis.

3 RP: Contribute to the elaboration of the documentation related to the planning and administrative management in the process of energy certification of buildings.

CR 3.1 stages of the process of obtaining the energy certification of buildings are planned, making schedules, taking into account the required deadlines.

CR 3.2 the documentation required to obtain the provisional and definitive energy certification of buildings is made, carrying out a follow-up of the administrative processes.

CR 3.3 the documentation required for the update, renewal and, where appropriate, improvement of the energy certification of buildings is managed in accordance with the conditions to establish the competent authority.

CR 3.4 information and advice related to the energy certification process, aimed at the owner, user or developer, are carried out directly or through the preparation of necessary documentation to do so.



Professional context: means of production: projects and pre-projects. Drawing tools. Computer applications specific calculation of energy-saving processes in building and energy certification, office and administrative management. Energy variables measuring equipment. Thermal imaging camera. Datalogger for temperature and humidity, infrared thermometers. Analyzer of electricity consumption. Lux meter, anemometers and the value of the transmittance meter, blower door would (for the actual calculation of infiltrations), among others.??



Products and results: compliance with requirements of energy saving and efficiency justifications tabs. Reports and memoirs. Calculations of power demands. Proposals for the improvement of the energy efficiency of buildings. Documentation associated with the qualification and the energy certification of the building.



Used or generated information: projects, technical brochures, schemes and diagrams of principle. Technical specifications. Schedules. Catalogues. Service manuals and use. Certificates, requests for certification. Receipts, invoices and reported consumption data. Records of energy variables. Climatological data. Internal rules of work. Applicable regulations.



Unit 3 competition: Manage the use efficient of water in building level: 3 code: UC1196_3 realizations professionals and completion criteria: RP 1: evaluate the indicators parameters of the water consumption of the receivers, determining the effectiveness of control systems and other devices used for the rational use of water in buildings.

CR 1.1 elements of a water supply system are identified and located directly or from the corresponding technical documentation.

CR 1.2 parameters of water consumption of the receivers common in homes, local business, hotels, health facilities, residences or any other establishment of the tertiary sector are determined from catalogues and manuals, or by regulatory experimental trials.

CR 1.3 data provided by instruments of measurement and regulation and control of flow, temperature, volume or any other variable controlled water supply or sanitation facilities are interpreted, by checking that its value is between the operating parameters.

CR 1.4 features, effectiveness and adaptation of control systems for efficient water consumption in homes, commercial premises, hotels, health facilities, residences or any other establishment of the tertiary sector are evaluated, from catalogues and manuals, or by carrying out on-site tests or trials.

RP 2: Evaluate the different use and consumption of water in buildings, analyzing the characteristics of facilities adapt to the demands of users for efficient use of water.

CR 2.1 the information needed to determine water consumption, the factor of simultaneous use of the receivers, the seasonal variable and history of consumption are achieved through the invoices of the companies supplying, through direct user information or carrying out empirical evidence and other procedures related to the actual operation of the facilities.

CR 2.2 the different uses of water are classified according to categories standard, making a comparison between actual consumption data and the consumption of reference for each category.

CR 2.3 the critical points for the efficient operation of the system are determined, establishing the causes for which an optimal consumption of water, gets out of either type technical or related to habits and behaviors of users.

CR 2.4 documentation derived from the analysis, evaluation and diagnosis of water supply installation maintenance is formalised through the corresponding report.

CR 2.5 features, effectiveness and adaptation of technologies and installations for the improvement of efficiency in the supply and control of the water are evaluated, checking performance and operating within the parameters set.

3 RP: Check that the regular operations of maintenance of water facilities have been made and registered according to the applicable regulations and with the level of energy efficiency established, efficient use of water.

CR 3.1 periodic maintenance operations are identified from the corresponding manual or instructions for the equipment.

CR 3.2 procedures for the maintenance and operation of water supply facilities are monitored, taking account at the beginning of quality, safety and rational use of water.

CR 3.3 log-keeping devices and apparatus, as well as regulation and water use efficient control systems is verified, checking that it has carried out according to established procedures.

CR 3.4 documentation related to the supervision and control of efficiency of water supply facilities is completed agreement, where appropriate, with the applicable rules.

4 PR: Propose saving alternatives, designing them for the efficient use of water.
CR 4.1 critical points of improvement of a water supply system are evaluated to determine the margins of savings.

CR 4.2 the apparatus of water in buildings are classified in objective categories according to the efficiency to facilitate your choice according to criteria of savings.

CR 4.3 the process of selection of receivers is performed by using database previously developed commercial brands, prices, characteristics of consumption, energy rating, and other interesting facts.

4.4 CR technologies and technical systems of improvement, to a building and certain conditions, are selected, making calculations and schemes for your implementation.

4.5 CR reports and descriptive reports of the adaptation and improvement of water supply facilities are developed, incorporating the necessary technical, efficiency, environmental and economic justifications.

CR 4.6 information to consumers and organizations techniques and alternatives of savings in water consumption is done explaining the proposals for improving the efficiency and responding to the issues raised.



Professional context: means of production: projects and pre-projects. Drawing tools. Specific water management and office computer applications. Flow measuring equipment. Recorders. Flow control systems, limiting, fitting of dual-stage, dual tank volume, aerators, stormwater management systems.



Products and results: memories, reports, and budgets on efficient use of water in buildings. Approach and alternatives of improvement of water systems. Proven water efficiency.



Used or generated information: projects, technical brochures, schemes and diagrams of principle. Book of the building. Maintenance manual. Technical specifications. Catalogues. Service manuals and use. Receipts, invoices and reported consumption data. Reports and descriptive reports of the adaptation and improvement of water supply facilities. Internal rules of work. Applicable regulations.



Unit 4 competition: Determine the viability of projects of facilities solar level: 3 code: UC0842_3 realizations professionals and completion criteria: RP 1: needs assessment and energy interests of the user, classifying them for the decision making on the type and characteristics of the most appropriate energy supply, complying with the applicable rules.

CR 1.1 user energy needs are classified according to applications, specifications of receivers and the characteristics of energy demand.

CR 1.2 electric power needs are determined quantitatively by establishing their baselines from the type of receivers.

CR 1.3 thermal energy needs are determined quantitatively by setting their basic parameters, especially the media seasonal annual yields of equipment and facilities depending on their State of maintenance.

CR 1.4 variable seasonal use, time of use, working temperature and simultaneity factor are determined and represent from recognized sources of information and the data provided by the user.

CR 1.5 the formalization of diagnostics and energy needs of a user is carried out by determining the different possibilities of supply, the overall economic costs and the amortization of the installation.

2 RP: Determine the solar potential of an area for making decisions about the possibilities for application of solar energy, complying with the applicable rules.

CR 2.1 solar global radiation, average diurnal ambient temperature and temperature of cold water from the network parameters are obtained from official, or sufficiently reliable statistical data in tables.

CR 2.2 the correlation between data is performed when the required information not tables or statistics available give it directly.

CR 2.3 the determination of direct, diffuse and global solar radiation is performed, using specific computer applications.

CR 2.4 solar data are measured and recorded using the Pyranometer, pirheliometro, «datalogger», automatic stations and other systems, under the conditions laid down quality and safety.

CR 2.5 the use of solar energy is justified from the evaluation of the available solar potential.

3 RP: Formalize proposals of solar facilities responding to energy needs and interests of clients, to determine the option that optimizes available resources.

CR 3.1 the study of the components of the solar installation is performed, using the technical information provided by the manufacturers of solar equipment, performing the necessary calculations and adapting to the needs of the user.

3.2 CR, the study of the ideal location, number and size of collectors or panels is carried out according to the building in which are located, as well as conditions of shadows, obstacles and other determinants of the utilization of solar energy.

CR 3.3 the study of the visual impact of the installation is done, ensuring that it is as low as possible on the basis of the interests of the user, related legislation and the possibilities of location.

CR 3.4 the viability of the project is evaluated by analyzing the cash flows and the most relevant indicators.

CR 3.5 proposal is concrete and formalizes incorporating technical, General schemes, complementary sketches and guidance on compliance with the rules, possible subsidies, amortization and financing developing.

CR 3.6 information and advice is transmitted to the user, answering questions that you might have in terms of technical characteristics, applicable legislation, economic viability requirement of maintenance, reliability, guarantee of supply and other aspects related to the solar system.



Professional context: means of production: specific applications of simulation and computer-aided drawing. Compass. GPS, tape measure. Pyranometer and pirheliometro. Datalogger and automatic stations.



Products and results: assessment of the needs and interests of the user. Solar potential of the study area. Technical and economic studies. Advised client. Processing of permits and subsidies.



Used or generated information: geographic and cadastral maps. Technical catalogues. Tables, graphs, maps, and statistical series on solar parameters. Prices of fuels. Applicable regulations. Forms, applications for grants. Study energy needs. Study solar resource in the area. Technical and economic studies of the installation.



Unit 5 competition: Promoting the use efficient of the power level: 3 code: UC1197_3 realizations professionals and completion criteria: RP 1: collaborate in the definition of the specifications needed to develop the information, training and outreach, actions raised in energy efficiency plans, taking into account the needs of the recipients.

CR 1.1 information needs that may require consumers or organizations, with respect to the efficient use of energy and water, are identified in order to obtain a communication tailored to recipients.

CR 1.2 identify needs of information or training that may require companies, professionals and other active agents, with respect to the efficient use of energy and water, in order to achieve the best adaptation to each case.

CR 1.3 physical spaces that will develop action briefing or training, as well as equipment and didactic resources used, are determined from the conditions of the context, the informational content and profiles of recipients.

CR 1.4 the design of educational or informative action is formalized and specified in the corresponding plan of action.

2 RP: Collaborate in the Organization of information and training actions aimed at consumers, businesses and organizations to promote the efficient use of energy.

2.1 CR spaces and technological resources needed to carry out the activity of dissemination, information or training are prepared and managed, adapting them to the objectives pursued.

2.2 CR information and documentation required to develop the activity of dissemination, information or training is managed according to the technical requirements and established quality.

CR 2.3 dissemination of information and training action is prepared and managed, determining the elements requiring the means of communication according to the technical requirements and established quality.

3 RP: Develop the actions of information or training consumers, organizations and professionals in accordance with the objectives pursued, the defined methodology and the budget, to promote the efficient use of energy.

CR 3.1 dissemination of strategies and general techniques to achieve greater energy efficiency in buildings facilities is performed by small groups of consumers, answering questions and encouraging habits that streamlined the consumption of energy and water.
CR 3.2 information or training about strategies and specialized techniques to achieve a greater energy efficiency in buildings facilities is performed by specialists, responding to general and technical questions, in an objective and detailed.

CR 3.3 methodology and didactic, and informational resources are selected taking into account the objectives, the content of the action and recipients themselves.

4 RP: Collaborate in the evaluation of the actions of information or training, using techniques and tools to determine the suitability of the same according to the objectives and expected results.

CR 4.1 evaluation of type information, informative or educational action plan is designed so that can get the most relevant data for the improvement of future actions.

CR 4.2 instruments to evaluate informative and formative action are applied according to criteria of adaptation to efficiency plan objectives, the context and to recipients.

CR 4.3 evaluation, at the end of the action is carried out taking into account its objectives and the process followed, from the corresponding assessment instruments, proposing appropriate improvements and formalizing all in a document written using the computer application tools.



Professional context: means of production: office-specific computer applications. Internet. Platforms and social networks.



Products and results: management of teaching activities information, training resources or disclosure. Informative or educational activity. Dissemination plan. Plans of evaluation of activities.



Used or generated information: strategic plans: national, territorial and sectoral. Functional synoptic diagrams. Technical catalogues. Profitability studies. Tables, graphs, maps, and statistical series on energy parameters. Databases on energy and energy efficiency. Prices of fuels. Corresponding to grants regulations. Forms, applications for grants. Calls for information and training actions. Internal rules of work. Applicable regulations.



TRAINING module 1: evaluation of the efficiency energy of the installations in buildings level: 3 code: MF1194_3 associated with UC: assess the energy efficiency of buildings lasting facilities: 270 hours capabilities and evaluation criteria: C1: calculate the energy efficiency of the generators of heat and cold, fans, circulators and pipe networks and distribution channels by means of analysis of the Constitution and the operation thereof, in accordance with the applicable rules.

CE1.1 describe the operation of an energy facility of heat from the corresponding technical documentation generation, identifying its parts, equipment and components, determining the technical characteristics of the same and checking the regulatory requirements.

CE1.2 describe the operation of an energy facility of cold from the corresponding technical documentation generation, identifying its parts, equipment and components, determining the technical characteristics of the same and checking the regulatory requirements.

CE1.3 in a practical course of evaluation of an installation equipped with at least one generator of heat and cold, and that there are networks of pipes and ducts for distribution of heating and cooling:-identify the main elements and circuits that make up the installation, locating the site and specifying the main characteristics of each of them.

-Determine the profit or loss of heat through the networks of distribution through calculation, from tables and nomograms, using measuring instruments or regulatory experimental trials.

-Carry out the reading of the different instruments of measurement of flow rate, pressure, temperature, among others and process the data to determine if the operation is efficient.

-Determine the performance of each of the generators, equipment of propulsion of fluids carriers and terminal units and verify compliance with applicable regulations.

-Check the status, technical characteristics and suitability of heat of the networks of pipes and heat distribution ducts and cold insulation according to the applicable regulations.

-Check on the registration documents for peacekeeping operations that they have been made with established specifications and frequency.

-To assess the energy efficiency of the entire system.

C2: Analyze the functioning of the control systems, remote management, measurement instruments and energy recovery systems, checking that they contribute to the energy efficiency of the installation in accordance with the applicable regulations.

CE2.1 classify systems of control and energy recovery from the point of view of energy efficiency and compliance with applicable regulations.

CE2.2 classified TeleManagement systems from the point of view of energy efficiency and compliance with applicable regulations.

CE2.3 carry out the reading of the instruments for measuring flow, pressure, temperature, among others and processing the data obtained to determine the efficiency of the operation.

CE2.4 check control subsystems to interact appropriately on the subsystem of generation of heat or cold.

CE2.5 classify systems of recovery of energy according to the applicable regulations and determine the process to be followed for the determination of the efficiency of each of them.

CE2.6 check in registration documents of peacekeeping operations carried out with established specifications and frequency.

CE2.7 in a practical course of evaluation of an installation equipped with at least one generator of heat and cold, and that there are networks of pipes and channels of distribution of heat and cold with the corresponding control, measurement instruments and systems of energy recovery systems:-identify the control and energy recovery systems.

-Interpreting the data obtained from the installation measurement instruments.

-Check the correct functioning of the control system.

-Determine the efficiency of energy recovery systems.

-Complete registration of maintenance documents.

C3: Calculate the energy efficiency of indoor lighting and outdoor lighting installations and verify that they meet energy efficiency requirements set forth in the applicable regulations.

CE3.1 classify types of luminaires and systems of regulation and control of them according to energy efficiency, interpreting the catalogues and certificates of the manufacturers.

CE3.2 determine the energy efficiency of lighting installations, valuing power factor, the characteristics of the light source and other factors.

CE3.3 interpret maintenance and conservation plans established for different types of installations of lighting.

CE3.4 in a practical course of evaluation of an installation of a building lighting:-identify the main elements that make up the installation, locating the site and specifying the main characteristics of each of them.

-Check the performance of each of the types of fixtures installed in accordance with the applicable legislation.

-Check that the regulation and control of existing lighting systems optimize the use of natural light and comply with applicable regulations.

-Calculate the value of the energy efficiency of different parts of the installation of lighting and check that it complies with the values limits required by applicable regulations.

-Determine maintenance operations to carry out and record to ensure the maintenance of the energy efficiency of the installation in the course of time.

C4: Determine the requirement of use of renewable energies and limitation of the use of electricity in the heating systems according to applicable regulations.

CE4.1 describe the applicable regulations concerning the use of renewable energy in buildings.

CE4.2 describe the applicable regulations concerning the limitation of the use of electricity in the heating systems in buildings.

CE4.3 product, different types of heating systems, the part of the total energy demand cover with the electrical power input and relate it to the applicable regulations.

CE4.4 examining, in different types of heating systems, the part of the energy demand total to cover with the contribution of renewable energies and relate it to the applicable regulations.

CE4.5 in a practical course of evaluation of a heating system of a building equipped with system of production of domestic hot water, swimming pool and electricity production system:-determine the part of the energy demand with electricity.

-Determine the minimum energy demand to meet with renewable energy.

-Check the fulfillment of the applicable regulations with regard to energy efficiency.

C5: Write reports and reports with proposals for improvement of heating systems from the point of view of the improvement in efficiency and energy saving.
CE5.1 interpret energy spending bills that can exist in a building.

CE5.2 interpret the values of measurement devices of accounting for consumption and time counters, registering and processing the results obtained in order to substantiate the proposal of improvement.

CE5.3 to enumerate the points of saving and efficiency in the energy consumption of an energy system of a building, calculating margins of technological improvement in sheds and user behavior.

CE5.4 justify the selection of certain technical proposals for the improvement of efficiency in the energy consumption of building installations.

CE5.5 justify the feasibility of proposed solutions, conducting a study of costs approximate.

CE5.6 formalize reports and memories of adaptation and improvement of energy facilities of a building using computer applications.

CE5.7 explain the alternatives to consumption and energy-saving from the point of view of the consumer.

C6: Analyze standards and measures of prevention of risks, safety, health and environmental inspection of the energy efficiency of facilities operations.

CE6.1 identify professional and environmental risks arising from the intervention of the energy efficiency of facilities inspection.

CE6.2 determine the measures of control and security to proceed to its implementation.

CE6.3 describe the characteristics of use and conservation of safety equipment used in the work of inspection of energy facilities of buildings.

CE6.4 know the plan of security and emergencies relating to the energy facilities of buildings and relate them to the operations of evaluation and inspection of their efficiency.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.3; C2 regarding CE2.7; C3 on CE3.4; C4 on CE4.5.

Other capabilities: propose alternatives with the aim of improving results.

Demonstrate creativity in the development of the work performed.

Use of time and effort in expanding knowledge and information for use in their work.

Responsible for the work developed and the fulfilment of the objectives.

Demonstrate a good make professional.

Complete the work according to criteria of fitness, speed, economy and efficiency.



Contents: 1. energy facilities of buildings heat, elements, technical and operating production facilities. Cold, elements, technical and operating production facilities. Propulsion of fluids, elements, technical characteristics and performance facilities. Installations of lighting, elements, technical features and performance.

Control systems of heat and cold and lighting installations production facilities. Remote management.



2. energy efficiency of heating systems, efficient design of heating systems.

Solar contribution in obtaining hot water and air conditioning of swimming pools. Performance and energy efficiency of generators of heat and cold, teams of propulsion of fluids carriers, Terminal units and energy recovery equipment.



3 energy in the electrical installation of the building efficiency energy efficiency of lighting installations. Characteristics of indoor lighting installations. Characteristics of exterior lighting systems.

Use of natural light systems. Power factor. Concurrency. Automation.

Installation and efficient use of elevators. Harmonic filtering. Efficient electrical installations. Efficient use of installed equipment (computer, copiers, machines for self-consumption, among others).



4. efficient maintenance of energy facilities of building typology of buildings energy facilities maintenance operations.

Search critical points and identification of excessive spending.

Registration of peacekeeping operations.



5. reports of improvement of energy efficiency techniques of written communication. Technical reports. Types of reports. Justifying memories. Measurements and ratings. Budgets. Writing and presentation techniques. Office applications for reporting.



6 rules and recommendations on efficient use of energy in buildings with rules applicable in buildings and heating system. Regional legislation and municipal ordinances. Technical requirements specifications. Safety, risk prevention and environmental applicable.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the evaluation of the energy efficiency of facilities of buildings, which will be using one of the following ways:-academic education of level 2 (Spanish framework for higher education qualifications), engineering, architecture or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: certification buildings energy level: 3 code: MF1195_3 associated with UC: collaborate in the process of energy certification of buildings duration: 270 hours capabilities and evaluation criteria: C1: analyzing the parameters of walls and interior partitions of buildings and other construction features, checking that they comply with the conditions laid down for the limitation of the energy demand of the building.

CE1.1 classified information contained in the project to determine the factors influencing energy consumption.

CE1.2 classify types of enclosures according to their energy performance.

CE1.3 explain the influence of the arrangement and orientation of buildings in energy demand.

CE1.4 explain the energy contributions derived from passive solar systems and solar protection.

CE1.5 determine the influence of condensation in the energy demand of the building.

CE1.6 determine the air permeability of the woodwork of voids and skylights and their influence on the building energy demand.

C2: Apply the methodology established in the process of obtaining the energy rating of buildings.

CE2.1 identify and define the constructive characteristics of the buildings which are necessary in the energy rating process.

CE2.2 define the limitations of consumption and demand in residential buildings and other applications.

CE2.3 define the characteristics of the installations of heating and domestic hot water in relation to energy demand to meet.

CE2.4 determine the characteristics of the facilities of air conditioning and ventilation in relation to energy demand to meet.

CE2.5 determine the characteristics of lighting installations in relation to energy demand to meet.

CE2.6 identify and define the characteristics of renewable energy installations of the buildings which are necessary in the energy rating process.

CE2.7 determine the characteristics of different buildings in reference to different climatic zones.

CE2.8 determine the energy rating indices derived from the process followed.

CE2.9 explain the technical specifications which requires legal accreditation of qualification and their relationship with legislation or label.

CE2.10 in a practical course of energy certification of a building of corresponding characterized by drawings and technical documentation residential use where there is demand for electric and thermal energy for domestic hot water and space heating:-identify and define the design features of the building.

-Identify and define the characteristics of the conventional energy facilities of the building.

-Identify and define the characteristics of lighting installations.

-Identify and define the characteristics of renewable energy facilities of the building.

-Determine the characteristics of the reference building used in the energy rating.

-Calculate the rate of energy rating that corresponds.

-Complete legal accreditation of energy rating or label.

CE2.11 in a practical course of energy certification of a building administrative, teaching, health, sports, commercial, cultural or religious characterized by drawings and technical documentation for where there is demand for electric and thermal energy for domestic hot water and space heating:-identify and define the design features of the building.
-Identify and define the characteristics of the conventional energy facilities of the building.

-Identify and define the characteristics of renewable energy facilities of the building.

-Determine the characteristics of the reference building used in the energy rating.

-Calculate the rate of energy rating that corresponds.

-Complete legal accreditation of energy rating or label.

C3: Use computer applications official or approved for the calculation of the limitation of the energy demand of buildings.

CE3.1 define the functions and characteristics of computer applications used in the calculation of the limitation of energy demand.

CE3.2 select and enter the data necessary for the operation of the computer applications used in the calculation of the limitation of energy demand.

CE3.3 use the tools available in the computer applications used for the calculation of the limitation of energy demand.

CE3.4 documents of results of computer applications used in the calculation of the limitation of energy demand.

C4: Use computer applications official or approved for the energy rating of the building process.

CE4.1 define the functions and characteristics of computer applications used in the process of building energy rating.

CE4.2 select and enter the data necessary for the operation of the computer applications used in the process of building energy rating.

CE4.3 use the tools available in the computer applications used in the process of building energy rating.

CE4.4 documents of results of computer applications used in the process of building energy rating.

C5: Prepare the documentation required to obtain, update and renewal of energy certification.

CE5.1 describe the administrative process to follow in obtaining, update, renewal or improvement of energy certification.

CE5.2 classify and to complete the necessary administrative documents in the process of obtaining the energy certification of buildings.

CE5.3 classify and to complete the necessary administrative documents in the process of updating, renovation or improvement of the energy certification of buildings.

CE5.4 preparing documents with recommendations related to the isolation of the envelope, glazing parameters, performance of thermal generation facilities, the choice of the type of energy, and other measures for best energy rating, valuing its investment and depreciation.

Skills whose acquisition must be completed in a real work environment: C2 with regard to CE2.10 and CE2.11.

Other capabilities: adapt to the Organization, to its organisational and technological changes; as well as to new contexts or situations.

Respect the procedures and internal rules of the organization.

Responsible for the work developed and the fulfilment of the objectives.

Interpret and execute work instructions.

Communicate effectively with the right people, at all times; respecting the channels established in the organization.

Sharing information with the team.



Contents: 1. building and energy efficiency materials, energy performance. Life cycle. Structures, walls and interior partitions. Condensation. Permeability and air infiltration. Isolates. Actions for the improvement of the envelope, and energy systems. Energy rehabilitation. Constructive solutions, structural typologies and thermal bridges.

Type of energy facilities.

Renewable energy installations.



2. limitation of the technical foundations of the limitation of energy demand energy demand.

Limitation of energy demand.

Practical application of the general option.



3. energy rating of the building energy rating. Qualification processes. Certification.



4. energy efficiency energy simulation general computer applications software applications. Computer applications for the calculation of the limitation of energy demand. Computer applications for the energy rating.



5. Regulation of energy efficiency legislation.

Recommendations for government agencies.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to collaboration in the process of energy certification of buildings, which will be using one of the following ways:-academic education of level 2 (Spanish framework for higher education qualifications), engineering, architecture or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: efficiency in the use of water in buildings level: 3 code: MF1196_3 associated with UC: manage the efficient use of water in construction duration: 120 hours capabilities and evaluation criteria: C1: analyze the Constitution and the overall functioning of water facilities, determining compliance with the applicable regulations and recommendations related to the efficiency.

CE1.1 State the types of installations of water supply to buildings according to the use and nature of the same.

CE1.2 State the types of facilities for the disposal of waste water in buildings, according to the uses and nature thereof.

CE1.3 describe the characteristics of different types of facilities of water, linking them with the applicable regulations for the efficient use of water.

CE1.4 describe the characteristics of different types of facilities for the disposal of sewage, linking them with the applicable regulations.

CE1.5 in a practical course of management of installation of water and sanitation of a residential building, determine, from the drawings and data of the installation:-the rules applicable to the installation of water supply, which are related to water saving, classifying them according to the type and normative level.

-The rules applicable to the installation of sanitation, which are related to the efficiency and environmental quality, classifying them according to the type and normative level.

-The recommendations made by organizations and other entities specialized in efficiency and water saving, which could serve as a reference in the analysis of the installation.

-Compliance with the rules and applicable recommendations.

C2: Determine operating parameters and water consumption of the receivers and control systems in distribution networks of water, from a standpoint of efficiency in the use of water.

CE2.1 interpret from data obtained in a catalog of products, performance and consumption of used hydraulic recipients parameters.

CE2.2 design and small test and experimental methods to determine parameters of operation and water consumption of common receptors in building installations.

CE2.3 interpret the hydraulic variables measured and recorded by the instruments in the facilities.

CE2.4 to determine the performance characteristics of control systems for the efficient use of water in buildings.

CE2.5 in a practical course of management of installation of water and sanitation of a residential building, determine, from the drawings and data of the installation:-water receptor characteristics, classifying them into categories related to their water consumption efficiency.

-The characteristics of the systems and control devices valuing them according to their level of efficiency in the consumption of water.

-Consumption of water receptors.

-The General parameters and operation of systems and control devices.

C3: Analyzing the suitability of an installation to the demands and uses of the users.

CE3.1 identify the elements of the hydraulic installation, locating them from the drawings and technical documentation.

CE3.2 determine the characteristics of water consumption from invoices, data recording apparatus and data provided by the user.

CE3.3 determine the characteristics of water consumption through empirical tests carried out in the installation itself.

CE3.4 list the critical points of a technical nature affecting more clearly of the consumption of water in buildings.
CE3.5 list the critical points related to the habits and behaviors of users that impact of the excessive consumption of water in buildings.

CE3.6 in a practical course of management of installation of water and sanitation of a residential building, starting from the drawings and installation data, write a report of diagnosis of water supply facilities, assessing the degree of efficiency.

C4: Identify different interventions of maintenance of the hydraulic system of the building and check that they register in the use and maintenance manual or, where appropriate, in the book of the building.

CE4.1 identify elements, installation of water supply and sanitation, which must be carried out preventive treatment, locating them on a plane.

CE4.2 characterize operations related to efficiency and savings in water consumption, describing the tasks and their frequency.

CE4.3 in a practical course of management of installation of water and sanitation of a residential building, check, in the registration documents of the maintenance, operations carried out with established specifications and frequency.

C5: Make reports and technical reports with proposals for improvement of water from the point of view of efficiency and savings.

CE5.1 to enumerate the points of saving and efficiency in the consumption of water from a facility, calculating margins of technological improvement in sheds and user behavior.

CE5.2 justify the selection of certain technical proposals for the improvement of efficiency in the consumption of water from facilities in building.

CE5.3 justify the feasibility of proposed solutions, conducting a study of costs approximate and their amortization.

CE5.4 write reports and technical brochures for the adaptation and improvement of water supply facilities.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.5; C2 regarding CE2.5; C3 on CE3.6; C4 on CE4.3.

Other capabilities: treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Convey information with clarity, orderly, structured, clear and precise; respecting the channels established in the organization.

Propose alternatives with the aim of improving results.

Demonstrate creativity in the development of the work performed.

Use of time and effort in expanding knowledge and information for use in their work.



Contents: 1. rules and recommendations for the efficient use of water in building technical building code.

Regional legislation and municipal ordinances.

Technical requirements specifications.

Water supply regulations.

Health and consumer demands.



2. efficient installations of water supply and sanitation typology of installations of water supply and sanitation. Typology of uses of water and sanitation. Analysis of the demand for water and sanitation.

Installation of supply and sanitation of water networks. Description of rush of water networks. Characteristics of efficiency of receivers. Regulation and control systems.

Use of rainwater.

Parameters in water and sanitation facilities.

Tests and checks.



3. efficient maintenance of installations of water supply and sanitation typology of maintenance at installations of water supply and sanitation.

Search for leakage and identification of excessive spending.

Registration of peacekeeping operations.



4. reports of efficiency of water and sanitation report types.

Justifying memories.

Measurements and ratings.

Budgets. Writing and presentation techniques.

Office applications for reporting.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the management of the efficient use of water in the building, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: studies of viability of facilities solar level: 3 code: MF0842_3 associated with UC: determine the viability of projects of solar duration: 120 hours capabilities and evaluation criteria: C1: quantify the energy needs of different types of users, classifying them and analyzing them to diagnose the possibility of a solar installation.

CE1.1 in a practical course of study in a building with several dwellings where there is demand for electric and thermal energy for domestic hot water and space heating:-detail the ways of life and required services.

-To quantify the electricity for lighting and force, and for general community services.

-To quantify the electricity for lighting and other applications in each of the types of housing.

-Describe the seasonal variability, times of electricity consumption and simultaneity factor.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify the heat energy for each dwelling and for the whole of all of them, analyzing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.2 in a practical course of study of a single-family house in which there is demand for electric and thermal energy for hot water, heating and cooling:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

CE1.3 in a practical course of study of a pool heated by solar energy, with support system:-detail applications and services required.

-Quantify the electric power for lighting, force and for other uses.

-Describe the seasonal variability and power consumption times.

-Determine the nominal electrical power of reference and derived electrical parameters.

-Quantify heat energy, analysing the seasonal and daily variability.

-Define the possibilities of different energy supply: electricity, natural gas or other fuels.

-Explore possibilities, technical and legal, for installation of solar power.

-Formalize a document reflecting the results of the studies of energy consumption.

C2: Define the solar potential in an area determined by the realization of solar installations, using procedures and established media, and complying with the applicable rules.

CE2.1 determine the parameters of solar radiation in a location for which there are elaborate tables that allow to obtain the wanted values directly.

CE2.2 determine the parameters of solar radiation in a location for which there are elaborate tables in which there is to interpret and correlate different results to make a reasonable estimate.

CE2.3 explain the most common models in empirical of different types of solar radiation definition globally.

CE2.4 measure and record data of solar radiation through the use of the Pyranometer, pirheliometro and other usual log devices.

CE2.5 determine, for a location and given surface, the possibilities for realization of a solar thermal or photovoltaic, reasoning the potential and possible use of energy.

C3: Develop proposals for solar installations, aimed at customers, in which the characteristics of the installation and the analysis of the regulatory framework and applicable grants are collected.
CE3.1 study energy needs by assessing them to justify the use of thermal or photovoltaic solar energy.

CE3.2 reason, in the case of solar installations, the site suitable for the collectors, panels and equipment according to the conditions of shadow, obstacles and other determining factors in the use of solar panels, studying aesthetic factors and Visual associates.

CE3.3 reason, in the case of solar heating systems, the characteristics of the elements and components of the circuits of the installation.

CE3.4 reason, in the case of solar photovoltaic systems, the characteristics of the elements and components of the circuits of the installation.

CE3.5 report, outlining the regulatory framework related to the authorization of the installation and the demands derived from the same.

CE3.6 report, outlining the legal framework of possible grants to the installation and the demands derived from the same.

CE3.7 make an indicative budget of a solar thermal that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.8 make an indicative budget of a solar photovoltaic that detail the location, principle diagram and costs and savings provided, according to the estimate of the number of panels with the power to install.

CE3.9 make an economic assessment of the investment project by analyzing the most relevant indicators.

CE3.10 write the document concluded with the proposal of the solar heating system using computer tools with general purpose applications.

Skills whose acquisition must be completed in a real work environment: C1 full; C3 on CE3.7 and CE3.8.

Other capabilities: communicate effectively with customers.

Treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Have initiative to promote projects.

Participate and collaborate actively in the task force.

Ability to adapt to the context and needs of the people.



Contents: 1. fundamentals of solar power the Sun as energy source. The Sun and the Earth.

Solar energy conversion. The accumulation of power.

Integrated energy systems.



2 location and feasibility of solar energy needs facilities. Calculation. Solar potential of an area. Tables and measuring systems.

The location factors. Orientation, inclination and shadows.

Architectural and structural systems. Architectural integration.

Viability. Economic and financial factors.



3. classification of solar heating thermal solar energy. Global operation. Solar collectors. Operation, Constitution and connection. Elements of a solar thermal installation and specifications: sensors, primary and secondary circuits, heat exchangers, storage tanks, expansion tanks, circulation pumps, pipes, traps, flow meters, valves and elements of regulation and control.

Solar cooling systems. Applicable regulations.



4. classification of solar photovoltaic photovoltaic solar energy. Global operation.

Solar panels. Operation, Constitution and connection.

Elements of a solar photovoltaic installation connected to network and specifications.

Solar tracking systems.

Elements of an isolated solar installation and specifications.

Energy accumulation and support systems.

Solar cooling.

Applicable regulations.



5. promotion of solar promotion of renewable energies. Models and energy policies. Solar energy international, national and regional context.

Economic and financial studies of solar installations.

Code construction technician, bylaws and applicable regulations.

Regulatory framework of subsidies. Legislation and calls.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the determination of the viability of solar installations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 5: promotion of the use efficient of the energy level: 3 code: MF1197_3 associated with UC: promote the efficient use of the energy duration: 90 hours capabilities and evaluation criteria: C1: analyze information and dissemination actions raised in energy efficiency plans to determine the specifications needed for their development.

CE1.1 determine the context, the profile of the recipient, the duration, the reference topics, cost and other general specifications of informative actions and outreach aimed at consumers, associations of neighbours and the public in general, that are necessary to respond to the demands and recommendations of efficiency plans.

CE1.2 determine the context, profile of the recipient, the duration, the reference topics, cost and other general specifications of informative actions and outreach aimed at experts, professional associations, enterprises and organizations in the sector, that are necessary to respond to the demands and recommendations of efficiency plans.

CE1.3 develop reports and general information and training proposals, presenting formalized documents containing general specifications needed for the development of the action, using the supports specific software applications for this purpose.

C2: Programmed actions of information or training to consumers, businesses and organizations on legislation applicable of efficiency, environmental and responsible consumer habits.

CE2.1 define the objectives pursued in the briefing or training, action taking into account demands of efficiency plan, recommendations on the rational use of energy, with the applicable rules and the demands and characteristics of recipients.

CE2.2 determine and set the contents of the action, collecting information, educational materials and other support needed to develop them.

CE2.3 program and justify the communication and training methods to be used, relating them with the development of the action sequence and specifying the necessary resources.

CE2.4 design questionnaires, surveys and other instruments related to the evaluation of the action.

CE2.5 programming the dissemination of actions linked to the promotion of energy efficiency and responsible consumer habits.

C3: Inform and educate consumers, professionals, companies and organizations with specifications, defined and budget methodology established.

CE3.1 communicate to other people, in a clear and well-organized way, strategies and general techniques to achieve greater energy efficiency in buildings installations, responding to the questions and issues that arise.

CE3.2 expose professionals and specialists, in a clear and well-organized way, strategies and specific techniques, its field of action, to achieve greater energy efficiency in buildings installations, responding to the questions and specialized issues that arise.

CE3.3 classify resources and teaching materials, selecting them for each type of information and/or training intervention.

CE3.4 in a practical course of intervention information before a group of people of non-specialised profile, owners or users of energy facilities in a building, hospital installation, sports or other buildings:-inform users or consumers of the diagnosis or audit energy carried out in the facilities of the building.

-Explain the simplified general operation of the energy facilities subject to the plan.

-To analyze the critical points of action by the user to improve efficiency.

-Use resources and teaching materials appropriate to the situation, objectives and profile of persons.

-Respond to the questions raised with clarity.

CE3.5 in a practical course of speech information or training to professionals involved in the installation and maintenance of energy facilities in buildings:-report of the diagnosis or audit energy carried out in the facilities of the building in which it will operate.
-Explain the Foundation of energy saving from the technical actions proposed.

-Analyze the characteristics of the technical intervention.

-Use the explanatory resources appropriate to the situation, objectives and of professional profile.

-Respond to the questions raised with clarity.

C4: Design models and tools of evaluation of the actions of information or training to consumers or professionals related to the use of energy efficiency.

CE4.1 write a plan or assessment depending on the types of intervention model.

CE4.2 design tools and instruments needed to implement the plan of evaluation, including the preparation of questionnaires, assessment sheets, evaluation in network systems or others.

CE4.3 interpret the results of the assessment and propose corrective actions to improve.

CE4.4 formalized tools, instruments and results of the evaluation through the use of computer applications.

Skills whose acquisition must be completed in a real work environment: C3 with respect to CE3.4 and CE3.5.

Other capabilities: treat the customer with courtesy, respect and discretion.

Demonstrate interest and concern by satisfactorily meet the needs of customers.

Proposed challenging objectives involving a level of performance and efficiency higher than the achieved previously.

Adapt to new contexts or situations.

Communication skills, high level of oral expression and writing and ability attracting attention.

Convey information with clarity, of way to orderly, structured, clear and precise to respecting the channels established in the organization.



Contents: 1. disclosure plans on energy efficiency national energy efficiency plans. Promotional measures. Communication on energy efficiency campaigns. Fit between needs and demands.

Training plans. Specifications of courses and information sessions. Organization of courses and sessions.

Brochures and other broadcast systems. New communication systems and networks.



2. promotional actions on energy efficiency spaces and appropriate facilities.

Teaching resources.

Methods of intervention.

Profiles of recipients.

Design and development of training actions.



3. evaluation of actions of dissemination on energy efficiency evaluation models.

Instruments.

Remedial evaluation.

Reports of results.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the promotion of the efficient use of energy, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex X professional qualification: management of thermoelectric professional family operation: energy and water level: 3 code: ENA359_3 competition general manage, coordinate and control the tasks of operation, support the monitoring of the production process and maintenance of first level in thermoelectric ensuring the optimum functioning of the plant from the point of view of reliability energy efficiency and safety for people, environment, and facilities.



Competition UC1198_3 units: monitor processes in the operation of thermoelectric power plants at stable regimen UC1199_3: control maneuvers of operation at thermoelectric power plants during the process of start, stop and in anomalous situations of operation UC1200_3: coordinating and preparing the human team involved in the area of operation of UC1201_2 power plants: plant operate and perform maintenance on first level of thermoelectric power plants environment professional scope professional develops his professional activity in the area of production dedicated to the thermoelectric power generation using coal-fired power plants, gas, diesel, biomass, and other fuels, including generating thermal electricity and cogeneration, in entities of public or private nature-sized businesses small, medium or large, both on their own and of others, irrespective of their legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Productive sectors lies in the energy sector, sub-sector of production and distribution of electricity, gas, steam and hot water, both power producers and other industrial companies possessing own energy self-sufficiency systems.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Technical assistants for operation of thermoelectric power plants responsible for operation and maintenance of cogeneration systems operators of plant's thermal plant operators control of thermoelectric training associate (750 hours) training modules MF1198_3: monitoring of processes in power plants (240 hours) MF1199_3: Control maneuvers of start, stop, and anomalous situations in thermoelectric power (210 hours) MF1200_3 : Coordination and support to teams involved in the operation of power stations (120 hours) MF1201_2: operation on the ground and first level of thermoelectric power (180 hours) unit of competition 1: monitor the processes in the operation of Central THERMOELECTRIC in regime stable level: 3 code: UC1198_3 realizations professionals and completion criteria: RP 1: monitor a thermoelectric plant and the process parameters in general to ensure the optimal operating conditions criteria of reliability, energy efficiency and security to the people, environment and facilities.

1.1 CR situation and operational performance of the turbines, generators, boilers, pumps, fans, electrical systems, control, instrumentation and other equipment and systems is determined from information obtained from plant.

CR 1.2 flow, pressure, level, temperature, noise, vibration, position of valves and late career, leaks, spills, or strange smells and other parameters of the process are determined from the measures that provide the various instruments field and the observations made on the floor.

1.3 CR values accepted as normal, set points and limit values corresponding to each key parameter of the process, identify and interpret, being detected promptly detours or anomalies.

CR 1.4 for emissions and Immissions, environmental indicators are interpreted and supervise, by applying immediate corrective actions, in order to prevent the degradation of the environment.

1.5 CR monitoring, analysis and diagnosis of the operation of the plant are made using historical data bases and established protocols.

1.6 CR changes in parameters or operating procedures that entail improvements in the installation and to achieve advances in energy efficiency, reliability, efficiency or safety of processes are analyzed and proposed for consideration.

CR 1.7 plant monitoring programmes, and the validation of the quality of the data and trend analysis, are made to ensure the correct operation of the plant.

CR 1.8 periodic reports on production, consumption, efficiency and environmental control are elaborated according to the established procedure.

2 RP: Verify that periodic testing of the thermal plant equipment and systems are made according to established procedures to eliminate the possibility of latent failures.

2.1 CR procedures or protocols in periodic testing of equipment and systems are applied rigorously.

CR 2.2 protections, such as alarms and shooting performance, tests are performed following procedures and protocols.

CR 2.3 coordination with the control room, as well as the adoption of all the security measures leading up to the test equipment is guaranteed in all cases using appropriate communication procedures.
CR 2.4 changes in procedures of test, operating instructions, procedures of disclaimer or safety instructions, based on acquired experience are considered appropriate, are proposed for incorporation.

2.5 CR maneuvers, procedures and results of the rotation of duplicate are organized and supervised to get less interference in the production process.

3 RP: Monitor the temporary disqualification or disclaimer of equipment and systems, for security reasons, to ensure optimal conditions of intervention criteria of reliability, energy efficiency and security to the people, environment and facilities.

CR 3.1 scope and operation entity is analyzed rigorously, ensuring that the result will provide all the necessary security guarantees to persons, the environment, the equipment and the process.

CR 3.2 electrical insulation, earthing, ventilation, positioning and interlock of isolating valves, drainage and venting are checked to ensure optimal conditions of intervention, by applying the five golden rules and established procedures and standards.

CR 3.3 certification that the equipment or system is ready, properly signposted and in safe condition so that you can be involved is done in coordination with the responsible of the service's operation by applying the five golden rules and established procedures and standards.

CR 3.4 recovery of the initial conditions and the correct provision of the equipment or system for their commissioning ensures once requested the lifting of the disclaimer and fulfilled all conditions and protocols.

4 RP: Organize first level maintenance processes in thermal power plants, overseeing its execution, to ensure optimal conditions of intervention criteria of reliability, energy efficiency and security to the people, environment and facilities.

CR 4.1 maintenance and repair of the installations is organised and is monitored using technical and administrative documents received and generated.

CR 4.2 criteria for checking the general condition of equipment in terms of rated operating efficiency are set to make the most of the maintenance preventive.

CR 4.3 specifications of materials and equipment used in the maintenance of thermal power plants are prepared for the management of its acquisition.

CR 4.4 the stock of materials warehouse and distribution systems manages and controls under the premises of efficiency and quality.

CR 4.5 cleaning and lubrication of the equipment and facilities operations are organized and monitored with criteria of efficiency, quality and value for money.

CR 4.6 replacement of expendable is organized and monitored with criteria of efficiency, quality and value for money to get less interference in the process of energy production.

CR 4.7 control cards and reports of the tasks performed are made, using collected data result of revisions or first level maintenance.



Professional context: means of production: the process and continuous monitoring of equipment monitoring systems. Control room. Protection and alarm systems. Field instrumentation. Operation and maintenance management systems: acquisition, process and data analysis, management of work orders and equipment disclaimers. Quality management systems. The document management system. Equipment and measuring devices: digital electric meter, thermometer contact, optical pyrometers, portable leak detection tools, and others. Equipment and communication systems. Signaling elements.



Products and results: thermal power plant operating in stable regime under control. Periodic tests on equipment and systems. Thermal power station with first level controlled.



Used or generated information: instruction manuals provided by the manufacturer or supplier. Programs and maintenance manuals, manual quality, books of instructions, operating procedures, test protocols, books of alarms. Plans and schemes: plans and mechanical diagrams, flowcharts, diagrams, diagrams of automatisms. Different government regulation. Historical archives: plant information systems. Control cards and reports of troubleshooting tasks.



Unit 2 competition: Control LAS MANEUVERS operation in Central THERMOELECTRIC during the processes of start, stop and in situations ANOMALOUS operation level: 3 code: UC1199_3 realizations professionals and completion criteria: RP 1: control alignment and preparation of the equipment and systems to make the processes of starting and stopping in thermoelectric power plants with efficiency criteria reliability, and security for people, environment, and facilities.

1.1 CR disclaimers or requests for temporary disqualification of teams are requested according to the Protocol and procedures, then checking that they have withdrawn entirely, having fulfilled all the requirements.

CR 1.2 available power is checked, ensuring that it is adequate and that the instrumentation is operational.

CR 1.3 test, in circuits or equipment, are monitored according to established procedures.

1.4 CR equipment or systems are reviewed, ensuring that they are properly aligned and that they comply with all the conditions or permissions required for booting in safe condition.

1.5 CR the status and position of drains, valves, pumps, valves and other components is checked, checking that it fits the requirements.

CR 1.6 levels of fuel, water, chemicals, oil and other liquids are checked to ensure the boot in safe condition.

CR 1.7 operation of lubrication, cooling, sealing systems and other similar systems is checked before proceeding with each system boot sequence, ensuring that they are in the parameters.

CR 1.8 compliance required starting conditions and the validity of the operating parameters of any of the fundamental equipment operated from the control room, locally ensures walking machine.

CR 1.9 the conditions of operation of the plant are checked to ensure the stop in safe condition.

RP 2: Monitor operation in the processes of starting and stop in thermoelectric power maneuvers to make is with criteria of reliability and security for the people, environment and facilities.

CR 2.1 manoeuvres in electrical switches, valves, pumps and other items are checked, verifying its execution according to the sequence of procedures and security measures established, and in coordination with those responsible for operation in the control room.

CR 2.2 purges and fired boiler and the preparation of appropriate conditions of steam are supervised, making sure that they are done according to established procedures.

CR 2.3 maneuvers of synchronization, coupling, decoupling and load variations, the shooting of turbine are supervised, making sure that they are done according to established procedures.

CR 2.4 times or rhythms, settings, limitations and conditions of cold, warm or hot start of boiler, turbine and other key equipment are observed strictly, paying special attention to the gradients of variation of temperatures, differential expansions and other relevant parameters.

CR 2.5 times or rhythms, settings, limitations and conditions of station boiler, turbine and other key equipment are observed strictly, paying special attention to the gradients of variation of temperatures, differential expansions and other relevant parameters.

2.6 CR pressures, temperatures, levels, flow rates, consumption and other parameters of the process are monitored continuously, making sure that they are in line with the reference values.

CR 2.7 abnormal or situations of potential risk to people or the stability of the process and the installation is detected, to take measures to recover the safe condition, and transmitting the relevant information to those responsible for operation.

3 RP: Collaborate in operation manoeuvres performed from the control room of the station, under the supervision of operation Manager or Manager on duty, to ensure the optimal conditions of operation criteria of reliability and safety for people, the environment and facilities.

3.1 CR actuators and panels instruments and supervision and control from the control room terminals are operated according to the procedures in force, under the supervision of the person in charge of the control room, interpreting drawings, diagrams, symbols and other documentation and aid elements in the operation of a thermal power station.

CR 3.2 the relevant information provided by the indicators and variables records is transmitted to the person in charge of the control room.

CR 3.3 potential problems or malfunctions are identified to transmit them, where appropriate, the person in charge of the control room immediately.
4 PR: Act according to protocols established with unexpected or anomalous situations to restore stable operating condition or ensure the start-up of devices against emergencies.

CR 4.1 anomalies whose resolution is not immediately feasible, and possible corrective measures, are studied to determine the level of risk, by activating the alert in your case and coordinating the immediate and subsequent actions in order to prevent risks.

CR 4.2 breaks or leaks in pipes of boiler or cycle, shots of the group, load rejections, zeros of tension, pollutant emissions and other possible abnormal situations are identified promptly and accurately, valuing its entity or scope and significance.

CR 4.3 the entry into service of the protection devices, lubrication or cooling emergency, seal or sealed, gas, break vacuum extraction, spin slow and other teams that should be activated automatically, it checks, ensuring that it is established in all cases, proceeding to its manual start if necessary.

CR 4.4 immediate, rigorous and permanent communication with the control room is assured in all cases.

CR 4.5 execution of all operations and checks from the control room, or that he decides to urgently make sure in all cases.

CR 4.6 the execution of operations and checks referred to in the procedures before contingencies is assured in all cases.

CR 4.7 situations unforeseen and anomalous experiences are used to propose improvements in the procedures in these cases.

5 RP: Adopt the protection, safety and risk prevention measures required in operations in thermoelectric power station and during startup, stop processes and abnormal operating conditions, enforcing them according to security plans, ensuring the integrity of people, media and its surroundings.

5.1 CR standards and documentation of risk assessment and preventive planning processes in the thermoelectric are made known and applied rigorously.

CR 5.2 occupational hazards in General and those related to each of the subsystems in the plant are detected, communicating them according to established procedures.

CR 5.3 measures of protection and security and prevention of risks in the operations in systems of boiler and its auxiliary systems related to handling of fuels, flammable gases, fire, teams and circuits under extreme conditions of pressure and temperature and pollutant emissions, are monitored and co-ordinated according to established procedures.

CR 5.4 the measures of prevention of risks in the operations related to the electric switchgear for low, medium and high voltage are monitored and co-ordinated according to established procedures.

5.5 CR supervision and coordination of the operations of special risk is carried out according to the maneuver and plant safety procedures.

CR 5.6 the role of responsible for the first response team is assumed with arrived warranty case.

CR 5.7 the procedures before accidents caused by phenomena of electrical, thermal, mechanical origin or derived from fire, spills or leaks of flammable, toxic or corrosive products are put in place with the necessary rigour.

CR 5.8 the tabs of risks and action in emergencies relating to the incident or accident in question, are selected and used with rigour.

CR 5.9 procedures or instructions relating to safety measures are reviewed and updated on the basis of the experience gained, proposing improvements in the usual way security plans.

CR 5.10 collaboration with the person in charge of plant safety in the realization of training, practice, drills and handling equipment of signaling, protection, containment and extinction and the dissemination of the guidelines for the internal emergency plan is carried out with the established periodicity.



Professional context: means of production: the process and continuous monitoring of equipment monitoring systems. Protection and alarm systems. Field instrumentation. Equipment and measuring devices: digital electric meter, thermometer, optical pyrometers, portable tools for leak detection, gas detection, measurement of vibrations, optical thermography. Tools and power tools for everyday use. Equipment and communication systems. Simulators for practice. Emergency devices or equipment.



Products and results: thermoelectric power station operated in the processes of starting and stopping. Unexpected or anomalous situations returned in stable operating conditions. Measures of protection, security and risk prevention.



Used or generated information: specific documentation: safety manuals and procedures for performance against emergencies. Manuals of instructions, operating procedures, alarms books, plans and schemes: plans and mechanical diagrams, flowcharts, diagrams, diagrams of automatisms. Risk assessment and preventive planning documentation. Documentation of the internal emergency plan. Datasheets about risks and acting on the basis of the substances involved. Updated technical documentation (procedures, instructions and historical data among others).



UNIT of competency 3: Coordinating and preparing the human team involved in the AREA of operation of the power level: 3 code: UC1200_3 realizations professionals and completion criteria: RP 1: collaborate in the continuum of training and preparation of the team, which operates in a power station, to transmit the knowledge necessary in the performance of their functions under their responsibility,.

1.1 CR competencies and responsibilities of the members of the team are identified, establishing professional relationships between them.

CR 1.2 global power plant and the operation team's own goals are made known, being interpreted by all of its members.

CR 1.3 stimulation techniques are applied, transmitting them to the team to promote their active participation in the achievement of objectives and to propose and adopt the improvement activities.

CR 1.4 the content of the procedures and operating instructions, protocols of test, test of protective devices, testing and other relevant information lists, spreads, ensuring their understanding and correct use and, where necessary, updated on the basis of lessons learned.

CR 1.5 training of new staff or in period of instruction is taken care of with rigor, providing data and guidelines required for the performance of its functions.

2 RP: Ensure communication between the components of the team and between successive teams covering the continuous day, regime shifts, in the operation of a power plant to convey the incidents and ensure the optimal operating conditions.

2.1 CR coordination and transmission of information with the technicians in charge of the operation and plant operators is performed with timeliness, effectiveness and rigor.

CR 2.2 detected uncertainties or significant incidents are identified and investigated, ensuring that any relevant information is transmitted to the incoming team.

CR 2.3 the relay between successive teams of the day takes place in person, in the right place and using the time needed to make all incidence, anomaly or relevant information is transmitted with clarity and rigor, according to established protocol.

CR 2.4 dissemination of the content of the bug reports generated through the quality management systems is verified to ensure that experiences are shared by the team's operation in its entirety.

3 RP: Collaborate in the coordination of the work of the service operation with the tasks of services of maintenance, environment, quality management and chemical, to ensure optimal operating conditions with criteria of reliability, energy efficiency and safety for people, environment, and facilities.

CR 3.1 collaboration in coordinating the work of maintenance, quality control, chemistry and environmental control services, is carried out, adapting its execution to the conditions of the March, charge reduced, short stop or stop long, in order to avoid delays or interference.

CR 3.2 the progress of the works is supervised, checking the incidents and compliance with the deadlines and reporting of any eventuality that may alter the forecast of availability that the office of energy management needs to know promptly.

CR 3.3 acceptance and compliance with the works carried out final tests are executed according to the established plan of quality plants, equipment or circuits properly prepared for their commissioning.

3.4 CR corrective or preventive measures to apply when they detect mismatches of coordination between areas of operation and other services involved determined acting according to established company procedures or the established quality management system.
CR 3.5 collaboration in the control of the work awarded to external companies is ensuring compliance with deadlines, safety for people, quality and set budget criteria.



Professional context: means of production: integrated system of management of quality, environment and prevention. Maintenance management system. Training and skills development plans. The document management system.



Products and results: team prepared, committed, reliable and safe. Coordinated work of operation of the plant. Supervised subcontractors works.



Used or generated information: documentation of the integrated system of management of quality, environment and prevention. Training manuals. Manual of instructions and documentary archive of our own area of operation. Training programmes to be developed in the workplace. Specifications of work companies.



Unit 4 competition: Plant operate and perform maintenance on first level of THERMOELECTRIC power level: 2 code: UC1201_2 realizations professionals and completion criteria: RP 1: operating systems, equipment and instruments of thermoelectric power plants during stable operation and processes of starting and stopping so that they are made with criteria of efficiency, reliability, and security for the people environment and facilities.

1.1 CR equipments and instruments related to the receipt, storage, supply, treatment and control of fuel system are operated according to established procedures.

CR 1.2 equipment and instruments related to the boiler system and its auxiliaries are operated according to established procedures.

CR 1.3 equipment and instruments related to the circuit of steam and ancillary services are operated according to established procedures.

CR 1.4 equipment and instruments related to the turbines and their lubrication, control and protection systems are operated according to established procedures.

1.5 CR equipments and instruments related to alternator, your excitement, cooling system and other auxiliary equipment are operated according to established procedures.

1.6 CR equipments and instruments related to electrical systems en - substation-, MT, BT, DC and secure tension are operated according to established procedures.

CR 1.7 equipments and instruments related to the services of compressed air, air of instrumentation, systems for control and other equipment and ancillary systems involved in the operation are operated according to established procedures.

CR 1.8 equipment and systems related to plants of desulphurization, water treatment, treatment of fuel and effluents and other chemical systems of the station are operated according to established procedures.

1.9 CR the collection of data by means of checklists, as well as the possible detected dysfunctions and the transfer of information management systems, are made, communicating them promptly to ensure established operation of the plant.

RP 2: Organize the maintenance work of first-level facilities of thermoelectric power plants according to the guidelines and specifications established to ensure optimal conditions of intervention criteria of reliability, energy efficiency and security to the people, environment and facilities.

CR 2.1 installation components are identified, locating its location from the instructions received or the drawings and technical specifications.

2.2 CR plans and technical specifications of the equipment and facilities to maintain are identified and interpreted to know with clarity and precision the action that should be performed and establish the sequence of maintenance intervention, optimizing the process in terms of safety, method and time.

CR 2.3 maintenance sequence is established from instructions, drawings and technical documentation, optimizing the process in terms of safety, method and time.

2.4 CR materials, tools, equipment and other technical resources are selected according to the type of task.

CR 2.5 work area is prepared in accordance with the requirements of the own plant and according to established procedures.

3 RP: Apply the preventive, corrective and emergency measures established in the security plan of the company, during the maintenance of thermoelectric power plants, to prevent accidents and minimize risks.

CR 3.1 risk professional, thermal, mechanical, electrical or otherwise, are identified according to the security plan, before starting the maintenance of plant equipment.

CR 3.2 means of protection against risks arising from maintenance, are selected to avoid accidents.

CR 3.3 work of their responsibility areas are kept in order and cleanliness in order to avoid accidents.

3.4 CR emergency acts quickly, effective and safe following the Protocol adapted to the situation.

4 RP: Perform preventative maintenance on first level, related to the management of the operation, of the facilities of thermoelectric power plants from drawings, standards and technical specifications, for the correct operation, complying with the applicable legislation.

CR 4.1 lubrication and oil change are carried out according to the procedures and conditions of security established.

CR 4.2 cleaning of equipment and installations are performed with the means and procedures.

4.3 CR tightness and absence of corrosion of equipment and installations are verified with the rated frequency.

CR 4.4 State of thermal and electric insulation of equipment and installations are verified with the rated frequency.

CR 4.5 the noise level and vibrations of mechanical equipment are inspected with the rated frequency.

CR 4.6 maintenance of equipment and facilities related to the environmental control is performed according to the procedures established to comply with the applicable rules.

CR 4.7 used equipment and tools are reviewed and kept in a perfect state of operation.

CR 4.8 the results of inspections and operations are included in the report.

5 RP: Perform basic corrective maintenance in thermoelectric power plants, determining the performance process, using manuals of instructions and plans to restore functional conditions to set quality and safety.

CR 5.1 faults are detected and interpreted, providing information to assist in the initial assessment of their causes.

CR 5.2 sets the sequence of actions for repair optimizing the process in terms of safety, method and time, selecting equipment, tools, materials, useful and necessary auxiliary means.

5.3 CR repair or replacement of consumables and other damaged basic elements is carried out, following the sequence of the process of disassembly and Assembly established, within the planned time and with the required quality.

CR 5.4 installation functionality is reinstated in the shortest possible time taking into account the conditions of quality and safety.

CR 5.5 the parties and reports of repair is completed according to established procedures.



Professional context: means of production: equipment for movement of materials. Equipment and measuring devices: digital electric meter, thermometer, optical pyrometers, portable tools for detection of leaks and others. Tools and power tools for everyday use. Equipment and communication systems. Signaling elements. Personal safety equipment.



Products and results: facilities of thermoelectric power plants operated and maintained at the first level.



Used or generated information: instruction manuals provided by the manufacturer or supplier. Projects. Plans set and cutting, isometric. Schemes and diagrams of principle. List of parts and components. Maintenance programs and working parts. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Databases. Computer applications. Applicable regulations.



TRAINING module 1: SUPERVISION of processes in THERMOELECTRIC power level: 3 code: MF1198_3 associated with UC: monitor processes in the operation of thermoelectric power plants at stable regimen duration: 240 hours capabilities and evaluation criteria: C1: analyze the development of the process in plants, identifying the different systems involved, their technical specifications, functions, relevant operating parameters and applicable regulations to ensure optimal conditions of operation with reliability criteria energy efficiency and safety for people, environment, and facilities.

CE1.1 outline different systems of electricity production, types of transformations involved reasoning and characterizing the equipment used in them.

CE1.2 detail the configuration of a system of reception, storage and control of fuels:-station regulation and measurement of gas in a combined cycle or cogeneration plant.
-Liquid fuel system - diesel, fuel.

-Layout, functions and operation of the Park of liquid and solid fuels in a conventional thermal power station: scales, sampling, conveyors, machine, excavator, hoppers, feeders and mills.

CE1.3 specify the general layout and functions of a water treatment plant: raw water, demineralization systems, systems for power quality monitoring and treatment of the water cycle and systems for control and effluent treatment.

CE1.4 explain the operation of a steam generator combustion or heat recovery, its sections and its auxiliary systems: burners, economizer, evaporator, superheater and reheater, systems of monitoring and regulation of combustion, tempering stations, blowing systems and circuits of air and gases.

CE1.5 describe the steam cycle and their ancillary services: the cold bulb, water heaters, heat exchangers, pumps of condensate, feed pumps of boiler, turbine main and its lubrication and control systems, auxiliary circuits of refrigeration, water services, compressed air and air of instrumentation.

CE1.6 describe the systems of supervision and control and control of a thermal power station main loops: control of water supply, control of pressures and temperatures of steam, load control and voltage control.

CE1.7 specify in General a typical wiring diagram of a thermoelectric including systems of high, medium and low voltage, also describing systems of direct current, safe voltage and its utilities.

CE1.8 describe a thermoelectric environmental control systems and the technologies available to reduce emissions of pollutants, especially particulates, NOX, SOX and COX.

C2: Analyze criteria and management systems related to the operation of thermoelectric power plants.

CE2.1 describe the operation of the electric system national from the points of view of organization - generation market, agents of the market, the market operator, system operator, dispatch of generation or power - management and technical - concepts of frequency/power, primary, secondary and tertiary, regulating tension control, communications with the dispatch of generation, the importance of the implementation of charging schemes committed - at basic level.

CE2.2 detailing the general organization of thermoelectric power and basic functions that matter for the different areas of responsibility: operation, maintenance, quality control, chemical services, environmental control, fuels and risk prevention.

CE2.3 review possible interference in the discharge of responsibility in different areas and define the general lines to coordinate the actions of these areas according to the priority of the work and the condition of the plant.

CE2.4 determine the procedure of discharge or disqualification of an equipment or system to ensure the necessary security for people, the environment, the equipment and the process.

CE2.5 define the checks and tests to perform on a computer or system disabled and required signage.

CE2.6 determine the checks and protocols to follow before putting into service of a team whose disclaimer or temporary disqualification have been cancelled.

C3: Assess peacekeeping operations of first level of equipment that includes a thermal power station are carried out safely and with established quality.

CE3.1 determine the tools, documentation and equipment needed to perform the first level maintenance operations and monitor its status.

CE3.2 describe the criteria for checking the general condition of the equipment and facilities in terms of its nominal operation.

CE3.3 establish criteria for checking the general condition of equipment and installations for tightness and corrosion.

CE3.4 establish criteria of check on duplicate equipment and manoeuvres to its rotation.

CE3.5 manage the operations of replacement of expendable with the appropriate means and according to established procedures.

CE3.6 establish criteria for implementation and monitoring of the operations of cleaning and lubrication of equipment and facilities.

CE3.7 determine safety measures in maintenance of world-class operations.

CE3.8 write the report on the results of inspections and operations carried out according to the plan of maintenance and procedures usually established in the companies.

Skills whose acquisition must be completed in a real work environment: C2 full; Complete C3.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Learn new concepts and procedures and to effectively leverage the training using the knowledge acquired.

Communicate effectively with the right people, at all times; respecting the channels established by the organization.

Demonstrate resistance to stress, stability of mood and impulse control.

Demonstrate interest in the knowledge of the Organization and its processes.

Interpret and execute work instructions.



Contents: 1. mechanical fundamentals of thermoelectric materials. Structure, mechanical properties and defects of homogeneity.

Phenomena of corrosion of metallic materials.

Mechanical components. Seals, bearings and lubrication.

Pipes, tanks and valves. Pumps, heat exchangers, evaporators, mud-gas separators, filters and demineralization. Ejectors, Eductors, compressors, fans and air conditioning.



2. fundamentals of electricity in power plants nature of electricity. Properties and applications.

Electric current. Electrical quantities. Magnetism and electromagnetism. Electrical circuits.

Structure and components. Symbols and graphical representation. Three-phase electrical systems.

Protection systems. Ground installations.

Static and rotating electric machines. Typology and characteristics.

Generators, transformers and motors. Batteries and rectifiers.

Measures of electrical quantities.

Procedures. Measuring instruments. Errors in measurement. Electrical safety. Electrical switchgear. Control switches. Basic notions of regulation.



3. heat engineering applied to thermoelectric statics and dynamics of fluids and thermodynamics.

States of matter, changes of State, latent heat and sensible heat, pressures and temperatures.

Specific heat, saturated steam, superheated steam, enthalpy, entropy, units of measure, steam tables, basic diagrams.

Thermodynamic cycles. Ideal Carnot cycle and cycles real Rankine and Hirn with condensation, overheating and extraction applied to plants.

Brayton cycle for gas turbines and gas turbine, steam generator and steam turbine combined-cycle.



4 General characteristics of a thermoelectric power plants types: conventional, combined cycle, solar-thermal, cogeneration systems.

Processes of a thermoelectric plant in regime of stable performance and key parameters controlling the operation service.

Projects, reports, plans and operation manuals. Symbolic drawings, schemes and diagrams of automatisms. Diagrams, flow charts, and schedules.

Applicable regulations for pressure devices, combustion plants, substations and transformers.

Applicable regulations.



5. functional systems and equipment of a thermoelectric system of fuels and their components.

Dismountable and measurement of natural gas in a combined cycle thermal power plant.

Boiler and auxiliary systems.

Systems for purification of emissions: electrostatic precipitator, plant desulfurization, systems for control and reduction of emissions of nitrogen oxides.

Systems of condensate and feed water: functions, flow diagram, components. Circuit of steam and ancillary services: main and superheated steam. Turbine main and their lubrication, control and protection systems. Gas turbine. Excitation, alternator, alternator, sealed cooling system and operations for replacement of the air of hydrogen, and vice versa.

Electrical systems en - substation-, MT, BT, DC and safe tension.

Auxiliary systems: water, compressed air, air of instrumentation.

Water treatment systems.

Systems for control and effluent treatment.



6 control in thermoelectric systems of monitoring and control systems: DCS, systems of data acquisition, monitoring computer, alarm system.

Permissive logical control and protection systems, alarms, and shooting.

Control systems and fundamental ties: control of water supply, control of pressures and temperatures of steam, load control and voltage control.

Systems of environmental control of a thermal power station, types of pollutant emissions and technologies available for its reduction. Environmental impact associated with the operation of a thermal power station: climate change, rain acidic and depletion of resources.



7 the first thermoelectric power level maintenance organization
Maintenance. Function, objectives and types. Preventive and corrective maintenance. Planning and scheduling of maintenance.

Maintenance plans. Preventive maintenance tasks. Optimization of the maintenance.

Calculation of needs. Load planning. Determination of times.

Documentation for planning and programming.

The work order.

Quality in the provision of the service.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the monitoring of the processes in the operation of thermoelectric power plants at stable regimen, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: CONTROL of start, stop and situations ANOMALOUS in Central THERMOELECTRIC level MANEUVERS: 3 code: MF1199_3 associated with UC: control maneuvers of operation at thermoelectric power plants during the process of start, stop and in anomalous situations of working duration: 210 hours capabilities and evaluation criteria: C1: analyze, using simulation systems, boot processes stop and load in thermoelectric power changes, identifying the sequence and expected behavior of different systems and equipment.

CE1.1 define the common operations to be carried out in the reception, storage and control of fuel supply system.

CE1.2 describe the operations to be carried out and the expected behavior at the water treatment plant.

CE1.3 describe the operations to be performed to hydraulic tests or seal of the boiler or pressure pipes as well as operations for filling, venting or drainage from boiler.

CE1.4 specify the operations to be carried out to ensure the stability of combustion, flames and interior cleaning of boiler quality.

CE1.5 describe the operations to be carried out, to monitor parameters and results expected in the water-steam cycle.

CE1.6 define the requirements and operations to perform to synchronize the parameters of the electrical system of the central evacuation network.

CE1.7 describe the operations and checks common in systems of high, medium, low voltage and direct current.

CE1.8 justify and relating the operations to be carried out and the behavior expected in environmental control systems.

C2: Describe the procedures to align the circuits for a start and a stop of the boiler, turbine or fundamental thermal power plant equipment, considering the evolution of the main parameters.

CE2.1 specify the procedures to align the equipment or systems, fulfilling all the conditions necessary for the start or stop in safe condition: no disclaimer no - disqualification of the team for security reasons - force, position of drains and floodgates, levels, lubrication and cooling, instrumentation and power available and operational.

CE2.2 detail manoeuvres in electrical switches, valves and other components according to the procedure and measures of security, in coordination with those responsible for operation in the control room.

CE2.3 describe any tasks of supervision, or operation from the panels of the control room, at the request of those responsible according to the instructions received.

CE2.4 describe the procedure of checking on foot from machine compliance with the conditions and the validity of the operating parameters before and after the start or stop any of the fundamental equipment operated from the control room.

CE2.5 rating and relate the requirements of times to be used, rhythms, settings and limitations of boiler - hot, warm or cold boot-, turbines and other fundamental equipment conditions, determining the permissible values of temperatures, differential expansions and other relevant parameters.

CE2.6 define possible anomalous or situations of potential risk to people or the stability of the process and installation during transient operations, describing the measures to be taken to recover the safe condition.

CE2.7 detail the process of activation of the alert and the tasks of coordination of immediate actions to prevent risks.

C3: Describe the thermoelectric power station control rooms, identifying areas, components and their function, to assist in operation manoeuvres.

CE3.1 identify and locate different areas and different control elements of a room.

CE3.2 interpret the information reflected in the instruments of measurement, equipment indicators and other elements of the control room operation.

CE3.3 justify for each type of manoeuvre operations to be carried out from a control room.

CE3.4 identify and differentiate the functions of persons involved in the operations carried out from the central control.

C4: Analysis of thermoelectric power operation possible anomalous situations, defining those equipment and operating parameters that should be monitored as a priority and actions for each situation.

CE4.1 determine the checks and immediate actions to be performed on the control system and lubrication of main turbine and auxiliary turbine in the event of a total failure of tension.

CE4.2 determine the checks and actions immediate on the lubrication system and sealing of hydrogen in the event of total failure of voltage alternator.

CE4.3 related to other functional systems or computers that should receive priority emergency general failure of AC power.

CE4.4 describe the behavior in case of sudden break in internal boiler pipe or at any point of the parts under pressure.

CE4.5 describe the behavior in case of tripping of boiler, a partial load rejection or a group shot.

CE4.6 determine the behavior in case of spillage of liquid fuels, contaminants or fire products.

CE4.7 describe the behaviour in different types of cases in which a personal accident might occur.

C5: Diagnose malfunctions in a simulation system, through the analysis of operating parameters.

CE5.1 collect the data using the established check lists.

CE5.2 transfer to management system data according to the established procedure.

CE5.3 carry out the validation of the quality of the data obtained by subsequently analyzing trends.

CE5.4 report according to the established procedure.

CE5.5 determine which parameters are out of range indicating possible causes and likely effects of the current situation.

CE5.6 used with skill detected dysfunction-related documentation.

CE5.7 describe clearly and concisely the problem detected and other information to be transmitted to those responsible for operation and the next turn.

C6: Act according to established protocols, in the simulation of breakage of parts to pressure, the Group shot, zero tension, pollutant emission, fire or other unforeseen situations or emergency.

CE6.1 identify promptly and accurately the Organization and scope of the emergency in order to prevent risks.

CE6.2 determine the type of emergency that should be automatically activated equipment.

CE6.3 perform activation of manual start-up teams.

CE6.4 describe the procedures for the activation of the alert.

CE6.5 define the immediate actions to perform to various emergency situations, analyzing the tasks of coordination required.

C7: Analyze the conditions and procedures that ensure safety in the operation and tasks during boot, stop processes and anomalous situations in thermoelectric power plants.

CE7.1 define and assess occupational risks arising from operation of thermoelectric power maneuvers.

CE7.2 describe safety and personal protective equipment employed in the different work of operation at thermoelectric power plants.

CE7.3 define the critical points of inspection and maintenance of General and personal safety equipment detecting possible anomalies and communicating these to the security officer.

CE7.4 describe the security features used in manoeuvres on boilers and auxiliary systems.

CE7.5 describe the security features used in manoeuvres in the turbo-generator group and auxiliary systems.
CE7.6 determine the operations necessary to control and reduce the electrical hazards during operation and during startup, stop processes and abnormal operating conditions.

CE7.7 describe the operations necessary to control and reduce the risks of thermal and mechanical origin derived from the maneuvers of operation and during the boot process, stop and abnormal operating conditions.

CE7.8 related substances and hazardous materials present on the premises of the central, determining the precautions necessary in each case.

CE7.9 apply the regulations and security plans for the power plant in operation manoeuvres.

CE7.10 developing measures for information and dissemination of the prevention of risks in different manoeuvres carried out in the plant.

C8: Reason and value with accidents emergency devices, describing each of them and establishing actions to be carried out in each case.

CE8.1 describe an emergency plan, analyzing the parts in which is divided.

CE8.2 describe the demands derived from an established material resources emergency plan.

CE8.3 define the actions to be followed by persons before an accident or a contingency, describing each of the measures of protection, assessment, support and first aid.

CE8.4 describe the essential elements of an internal emergency plan in the framework of the process of training and dissemination of this material to other operators.

Skills whose acquisition must be completed in a real work environment: C2 concerning CE2.2, CE2.3, and CE2.5; C6 CE6.1 and CE6.3; Complete C7.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Learn new concepts and procedures and to effectively leverage the training using the knowledge acquired.

Communicate effectively with the right people, at all times; respecting the channels established by the organization.

Demonstrate resistance to stress, stability of mood and impulse control.

Act quickly in problematic situations and not just waiting.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.



Contents: 1. functioning of the boiler and auxiliary circuits of a central power in the boot process and stop service water and air in instrumentation circuits: alignment and commissioning. Filling and venting of boiler. Systems of air and gases of the boiler: alignment and commissioning. Circuits of condensate and feedwater, water heaters and degasser: alignment, filling and commissioning. Ignition fuel: alignment of the circuit. Boiler: Purge and fired.

Process of preparation of the steam. Vents. Implementation of auxiliary steam system. Auxiliary liquid fuel. Water circulation or cooling of the condenser: alignment, filling and commissioning.



2. performance of turbo-generator and auxiliary circuits of a central power in the boot process and stop circuits from vapour locks and ejectors: alignment and commissioning. Drains and vents. Closure of the turbine and surrounding ducts to the condenser system. Vacuum in the condenser. Turbine bypass system: alignment and testing. Lubrication circuits, control and sealing of turbo-generator. Conditions required for the filming of the turbine according to the starting conditions. Filming, mesh, heating and charging Jack on turbo-generator.



3. control systems to transitional regimes of the thermoelectric expert systems or assistants for the start or stop of a thermal power station.

Control systems of tension in the pipes of the boiler.

Devices for monitoring of position of rotor, differential expansions and stress in turbine during filming or stop and load changes.

Continuous monitoring for rotating machinery systems.

Application in transitional arrangements and a central emergency regulations.

Applicable safety and environmental standards.



4 control in thermoelectric power station location rooms. Provision of components.

Monitoring of the process. Simulation and operation on the system.

Alarm systems.

Control room staff. Functions.

Communication systems. Protocols.



5. occupational hazards in the operation of thermoelectric power plants technological processes and identification of risks. Safety Manual.

Risks of thermal and mechanical origin.

Electrical hazards.

Risks associated with hazardous materials and substances.

Prevention and control of occupational hazards in the maneuvers of operation of boilers.

Prevention and control of occupational hazards in the operation of the turbo-generator group maneuvers. Applicable regulations.



6. safety equipment and automatic safety systems equipment.

Personal protective equipment.

Security Miscellanea.

Lifting loads.

Signalling systems.

Maintenance of equipment.



7 emergency Emergency Plan.

The rugged protection. Assessment of the accident.

Aid application.

First aid.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to control of operation at thermoelectric power plants during the boot process, stop maneuvers and in anomalous situations of operation, which will be using one of the following ways:-academic training of level 2 (Spanish higher education qualifications framework) , Engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: coordination and support to teams involved in the operation of hydro-electric power level: 3 code: MF1200_3 associated with UC: coordinating and preparing the team involved in the area of operation of the power stations duration: 120 hours capabilities and evaluation criteria: C1: analyze the professional functions of persons involved in the maneuvers of the operation and maintenance of first level in power plants identifying the action sequences and the expected behavior of the different members of the team.

CE1.1 define the roles and responsibilities of the members of the team, analyzing relations between them.

CE1.2 transmit and provide clear information on the objectives and actions to be performed by each of the members of the team in charge in the process of operation and maintenance of first level of central.

CE1.3 encourage the participation of the members of the team to improve interventions and update the manuals of operation, safety or any other technical documents related to its field of action.

C2: Develop internal continuous training of the human group which, under its responsibility, operates power plants.

CE2.1 realize the needs of training of new staff, or in training according to the functions to be carried out.

CE2.2 establish a continuous training programme adapted to the job.

CE2.3 collaborate in the direct training of new staff, or in training in aspects related to procedures and operating instructions, test protocols, test devices of protection, lists of checking and other relevant information.

CE2.4 develop action plans to evaluate the results of training actions and correct the observed shortcomings.

CE2.5 in a practical course of coordination and preparation of the team of a power plant, characterized by the planes of the installation and operation and maintenance manuals:-establish the training programme appropriate to a particular need for training.

-Collecting procedures and of operating instructions, test protocols, test devices of protection, lists of checking and other information relevant to the support in the training action.

-Carry out training actions according to content related to the operation of power plants.

-Assess the training action.

C3: Systematize and formalize information about incidents of power stations operation and coordinate its transmission to the members of relay teams.

CE3.1 identify, define and collect relevant information about the incidents that occurred in the process of supervision and operation of power plants.

CE3.2 describe protocols for relay teams, detailing the documents used for the transmission of information.
CE3.3 manage the paperwork, filling them with clear and detailed data of any contingency arising.

C4: For coordination of the activities of operation, maintenance, safety, environmental and quality plans.

CE4.1 analyze aspects of leadership, motivation, and other values to consider for efficient teamwork.

CE4.2 analyze aspects of stress, human error and other factors that may interfere to an efficient team work.

CE4.3 identify, define and collect relevant information on the needs for coordination between the computers that operate the plant and those who perform maintenance, chemical control, environmental monitoring or quality management.

CE4.4 identify telecommunications equipment necessary for permanent coordination with the different members of the team.

CE4.5 a plan for coordination between the tasks of different teams, designing the necessary schedules and defining operation manoeuvres required in each moment.

CE4.6 detail models of maintenance compliance including final testing requirements, alignment of circuits or other tasks on the floor of the plant, managing them.

CE4.7 based on so-called pilot that produced different types of problems of coordination, propose the necessary improvements and to develop useful reports for the area of quality management.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.5; C4 on CE4.3.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Participate and collaborate actively in the task force.

Maintaining an assertive attitude, empathic and conciliatory with others; showing cordiality and kindness in the deal.

Learn new concepts and procedures and to effectively leverage the training using the knowledge acquired.

Communicate effectively with the right people, at all times; respecting the channels established by the organization.

Demonstrate resistance to stress, stability of mood and impulse control.



Contents: 1. organizational structure of a typology of central power station.

Thermoelectric power station.

Hydroelectric power stations.

Production process. Mains and power dispatch.

Professional functions. Organization chart.

Production management. Control room. Areas and departments.



2 contracts and external assistance in hydro-electric power contracts usual tasks and services of external assistance. Recruitment process.

The framework of outer to the central staff.

Fuel supply.

Monitoring, checking and certification systems.

Tests and systems for compliance tasks.



3. management of teams in the common operations in power stations operations and staff involved. Teamwork. Leadership, motivation. Management of stress and human error. Communication techniques.

Preventive maintenance in power plants.

Coordination of the operation with preventive maintenance and other interventions.

Coordination plan.

Schedules.



4. management of teams in revisions scheduled in hydro-electric power station and associated operations stop. Corrective maintenance and troubleshooting operations.

Coordination of the intervention in the boiler. Test maneuvers.

Coordination of the intervention in the turbo-generator. Test maneuvers.

Coordination of the intervention in auxiliary air, steam and fuel systems. Test maneuvers.

Coordination of the intervention in water turbines.

Coordination of intervention in foreign hydroelectric facilities.

Coordination of the intervention in substations.

Planning of the work. Schedules.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the coordination and preparation of the team involved in the area of operation of power stations, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: plant operation and maintenance of first level of THERMOELECTRIC power level: 2 code: MF1201_2 associated with UC: plant operate and perform maintenance on first level of thermoelectric power duration: 180 hours capabilities and evaluation criteria: C1: explain the general operation of the facilities of thermoelectric power in relation to the plan of operation and maintenance of first level.

CE1.1 describe the operation of a thermal power station from technical documentation, identifying its parts, equipment and components from the point of view of the operation and maintenance of first level.

CE1.2 identify the elements on which it operates and which must be made from a specific program of maintenance preventive maintenance on planes of thermoelectric power plants.

CE1.3 reason the consequences, for a given installation, of the faults in their critical points.

CE1.4 in a practical course of operation on ground and first level of a central thermoelectric containing at least electric motors, gearheads, fans and components of mills and characterized by levels of installation and commissioning manuals and maintenance:-describe the common operations on each of the installation components.

-Explain the types of maintenance operations to be carried out.

-Justify the periodicity of peacekeeping operations to be carried out.

-Determine the times for each intervention.

-Define the technical and human resources involved in the operations.

C2: Analyze the measures of prevention, security and environmental protection with regard to the maintenance of facilities of thermoelectric power plants contained in security of the companies of the sector plans.

CE2.1 identify and evaluate occupational hazards present in the maintenance of facilities of thermoelectric power plants.

CE2.2 propose corrective and preventive measures against the risks detected including selection and use of individual and collective protective equipment.

CE2.3 identify the environmental protection requirements arising from the activities of maintenance of systems of reception and processing of fuel of power plants.

CE2.4 describe the requirements of work areas and procedures for the preparation, determining the corresponding specific risks and their corrective measures.

CE2.5 specify the aspects of safety regulations related to the maintenance of thermoelectric power plants.

CE2.6 detail the protocols of action possible emergencies arising during performances of maintenance of facilities of thermoelectric power plants.

CE2.7 describe the requirements for first aid and transfer of injured in different cases of accidents arising from the maintenance of thermoelectric power plants.

C3: Performing preventive maintenance of thermoelectric power plants.

CE3.1 use, previous organization and preparation, materials, equipment and tools required to perform preventative maintenance tasks.

CE3.2 reasoning the need for preventive maintenance in systems of reception, treatment, grinding and fuel supply, systems of water treatment, boiler systems, turbo-generator, and other equipment, systems and components of the facilities of thermoelectric power plants according to an established method.

CE3.3 describe the procedures of preventive maintenance that should be performed on equipment and components from thermoelectric power plants.

CE3.4 in a practical course of operation on ground and first level of a central thermoelectric containing at least electric motors, gearheads, fans and components of mills and characterized by levels of installation and commissioning manuals and maintenance:-check the general State of the different systems of the central.

-Identify the elements that preventive maintenance is required.
-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying relevant specific occupational hazards and corrective measures.

-Check the general condition of stands, protections and insulating material.

-Carry out the cleaning operations, tighten Terminal and checking the status of the connection to Earth.

-Check the State of electrical insulation, drop of tension and action of the elements of security and protection.

-Check the main variables of the system and compare the measurements obtained with the technical specifications.

-Act on out of range parameters to adjust them as indicated in the technical specifications.

-Review and maintain operation equipment and tools used in maintenance.

-Fill in the performance report.

C4: Perform basic corrective maintenance of thermoelectric power plants.

CE4.1 diagnose the common faults that occur in facilities of thermoelectric power, determining the cause of them and their effects on the system.

CE4.2 describe the procedures of each of the operations of maintenance of first level must be carried out on the plant components and computers.

CE4.3 describe the tools and ancillary equipment used in the corrective maintenance of world-class operations, reasoning the use and conservation of the same way.

CE4.4 in a practical course of operation on ground and first level of a thermal power station containing at least electric motors, gearheads, fans and components of mills, some of them defective State, characterized by levels of installation and commissioning manuals and maintenance:-identify the possible faults and their causes.

-Prepare the work area according to the requirements of the operation according to the established work procedures, identifying relevant specific occupational hazards and corrective measures.

-Describe the repair procedure, isolating the circuit or component if necessary.

-Repair or replace faulty items.

-Connect the system.

-Check the correct functioning of the system.

-Review and maintain operation equipment and tools used in maintenance.

-Complete review of performance.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.4; C3 on CE3.4; C4 on CE4.4.

Other capabilities: show some autonomy in the resolution of small contingencies related to its activity.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Interpret and execute work instructions.

Responsible for the work developed and the fulfilment of the objectives.

Sharing information with the team.

Demonstrate a good make professional.



Contents: 1. general operation of subsystems of thermoelectric power plants operation.

Maneuver of operation fuel system.

Handling of operation on boiler and steam circuits.

Operation in the turbine and its auxiliary systems maneuvers.

Handling of operation on the alternator and electrical systems AT.

Operation in systems operations and environmental.

Emergency and safety operations.



2. maintenance of first-level facilities of thermoelectric, thermoelectric power facility maintenance programs. Manuals. Establishment and management of maintenance in thermoelectric power plans. With rules of application in the maintenance of facilities of thermoelectric power plants. Quality in the maintenance of facilities of thermoelectric power plants. Security in the maintenance of facilities of thermoelectric power plants.



3. preventive maintenance of facilities of thermoelectric preventive maintenance program. Procedures and operations to take action. Checking and setting the parameters to set values. Evaluation of performance. Mechanical operations in the maintenance of facilities. Electric circuit operations. Equipment and tools. Damping, vibration. Cleaning procedures. Lubrication. Maintenance of the thermal insulation.



4 corrective maintenance of first-level facilities of thermoelectric differential failure. Critical faults. Procedures to electrically isolate the different components. Methods for the repair of components of the facilities. Disassembly and repair or replacement of electrical and mechanical elements. Maintenance of valves and actuators. Pumps. Removal and installation of gaskets.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the operation in plant and completion of first level of thermoelectric power plants, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.

Annex XI professional qualification: management of the installation and maintenance of gas professional family networks: energy and water level: 3 code: ENA360_3 general competition organize, control and manage installation, commissioning and maintenance of networks of gas and auxiliary facilities, according to requirements of effectiveness, efficiency, quality of supply and labor and environmental safety complying with the applicable rules.



Units of competence UC1202_3: collaborate in the planning of the implementation of gas UC1203_3 networks: control the development of network of gas UC1204_3: supervise the commissioning of gas UC1205_3 networks: organize and oversee the maintenance of networks of gas UC1206_3: manage the implementation of prevention measures of labor and environmental risks in networks of gas environment professional scope professional develops his professional activity in the area of production dedicated to Assembly, operation or maintenance of distribution networks of gas, in entities of public or private nature of small, medium or large size companies, both on their own as alien, regardless of its legal form. It develops its activity depending on, where appropriate, functional and/or hierarchical from a superior. You may have staff occasionally, seasonally or stable. His professional activity is subject to Regulation by the competent administration. In the development of the professional activity apply the principles of universal accessibility in accordance with the applicable legislation.



Sectors production is located in the sector of supply of electricity, gas, steam and air conditioning, subsector of distribution of gaseous fuels, in productive activities related to Assembly, exploitation and maintenance of gas distribution facilities.



Occupations and jobs relevant terms from the following list of occupations and jobs are used with generic and all-inclusive nature of women and men.

Mounting of gas networks managers managers of maintenance of gas networks chiefs of work of gas training associate (510 hours) training modules MF1202_3 networks: gas (150 hours) MF1203_3 network planning: development of network of gas (150 hours) MF1204_3: systems commissioning of gas (60 hours) MF1205_3 networks : Organization and control of the maintenance of gas (90 hours) MF1206_3 networks: networks of gas (60 hours) unit of competition 1 Labor and environmental risk management: collaborate in the planning of the execution of networks of GAS level: 3 code: UC1202_3 realizations professionals and completion criteria: RP 1: interpret the project or technical report of Assembly of a gas network for the planning of its implementation and the definition of the phases of work.

CR 1.1 memory project or plan of work is analyzed and interpreted to proceed with the planning process.

CR 1.2 topographical and site of the projected network features are interpreted based on the plans of the project.

CR 1.3 the functional characteristics of the projected network and auxiliary facilities are interpreted based on the plans of the project.
CR 1.4 plans work, diagrams, assembly sequence and other items related to the Organization and control of the implementation are interpreted from the documentation of the project or plan of work.

CR 1.5 the layout of other services such as water, electricity or telephone networks and its possible interference with the projected network are analyzed by determining the implications.

CR 1.6 access to information in support of the work or project of the network of gas is performed using corresponding software applications.

2 RP: Collaborate in the preliminary definition of the phases of work, sourcing programme, implementation of the timetable and planning of resources, both material and human, involved in the implementation of the gas network, to carry out the plan of work.

2.1 CR sequencing and general organization of work is established from the project, carrying out a work plan that optimizes the process in terms of safety, method and time.

CR 2.2 schedules for each of the Assembly steps are performed, optimizing resources.

CR 2.3 procurement plan is coordinating the plan of mounting with possibilities of provisioning and storage, verifying and guaranteeing the delivery at the right time.

CR 2.4 the preliminary organization of human resources, companies and means is set by defining the functions of each operator or company contracted and its correlation with the technical means programmed in each phase, analyzing the possible deviations and interference.

CR 2.5 sequencing, organizing the execution and other tasks related to the planning of the work are performed using corresponding software applications.

3 RP: Organize the layout of gas network, verifying and contrasting data, marking the field and proposing necessary amendments, to perform your installation.

CR 3.1 possible dysfunction between the design of the installation and the own site analyses, recommending corrective measures and carrying out the technical study and the economic calculations of the considered variations.

CR 3.2 the location of pipes of water, electricity or other checks which corresponds with the provision outlined in the project, otherwise reflecting the new situation on the plane and making timely reports.

CR 3.3 locations and characteristics of anchorage, supports and connections of the components and construction elements are monitored previously to be assembled.

CR 3.4 necessary complementary schemes for the layout and Assembly of gas distribution networks are carried out where required.

CR 3.5 marking the route of pipelines and auxiliary facilities and other elements of the network site is monitored on the ground from the Setup project and taking into account the characteristics of the place, using equipment and detection systems to verify the possible affected services, in order to allow for its proper installation.

CR 3.6 signage of the area of work is monitored according to established procedures and applicable regulations.

4 RP: Collaborate in the management of the documentation and administrative procedures to obtain the permits necessary, and related conditions to services and third parties in the execution of gas networks.

CR 4.1 documentation related to the necessary official permits in the work is managed.

CR 4.2 documents project, symbolic diagrams, lists of conditions, certificates, bills of materials, operation manuals and other technical documents are managed according to established procedures and applicable regulations.

CR 4.3 the parties, delivery notes, quality checks and other administrative documents are managed in the process of planning of the gas network.

CR 4.4 related conditions to services and third-party communications are managed to minimize its interference in the implementation of the network.



Professional context: means of production: drawing tools. Specific computer applications. Unit acquisition and data logging: TPL, GPS and GIS. Marking tools. Picas, marking material. Security equipments. Surveying tools, cables, sheets detectors, gas detectors, detectors vehicles.



Products and results: interpreted, redesigned and planned gas distribution network facilities. Gas distribution networks redesigned and planned modifications. Documentation and necessary administrative processing. Documentation and administrative procedures relating to permissions and conditions services and third parties in the execution of gas networks.



Used or generated information: project. Floor plans and elevations, whole and detail demo. Isometric drawings. Schemes and diagrams of principle. Tender documents. List of parts and components. Assembly programs. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Parts, delivery notes, quality checks and other administrative documents. Work plans, schedules, letters and communications. Internal rules of work. Applicable regulations.



Unit 2 competition: Control the development of network of GAS level: 3 code: UC1203_3 realizations professionals and completion criteria: RP 1: organize the phases of implementation of the gas networks complying the established schedule, overseeing them and performing, at its level, the corresponding adaptations from the contingencies that may arise.

CR 1.1 mounting of auxiliary gas system or network planning is used to consider the Organization of the work of the different parts of the work.

CR 1.2 the work of individuals and companies involved in the work is co-ordinated watching over the fulfilment of the set objectives, according to criteria of effectiveness, efficiency, quality and safety.

CR 1.3 the demolition, excavation, protection of slopes, the shoring, the setbacks with other services, the location of the connections, the establishment of the massifs of anchorage, preparation and leveling the sand bed and other operations in ditches are monitored according to the specifications of the project.

CR 1.4 laying pipes of the gas network is monitored, making sure that it has been according to the specifications of the project.

1.5 CR Assembly and connecting pipes is monitored according to established safety and quality specifications.

CR 1.6 the location and position of the boxes, insulation, flanges, milestones of signaling, valves, adjustment components and accessories is monitored, noting that it has been according to the specifications of the project.

CR 1.7 the interconnection of gas regulation stations network is monitored, making sure that it has been according to the specifications of the project.

CR 1.8 protection against corrosion, oxidation and mechanical impacts and the thermal insulation of networks and elements are monitored, checking that they have carried out according to the specifications of the project.

CR 1.9 withdrawal of the lag, the placement of fill, your compaction and replenishment of surfaces are monitored according to the specifications of the project.

RP 2: Organize the procurement and supply of materials to work according to procedures established in the company, for the execution of gas networks, controlling the process and ensuring compliance with applicable regulations.

CR 2.1 selection of the equipment, tools and other technical resources is monitored in each of the phases of the work.

CR 2.2 the supply of materials regarding delivery times, terms of delivery, collection in storage and distribution management is coordinated, controlling and supervising its execution according to stated specifications and the applicable regulations.

CR 2.3 displacement and location of the materials and equipment is managed according to the logistics of the project of the work with the means of transport and lifting set and safe.

CR 2.4 tools, machinery and ancillary media are organized and maintained in a State of use and safe.

3 RP: Assist in the monitoring and control of the quality of the work, to fulfill the plan, according to procedures established in the company and ensuring compliance with applicable regulations.

CR 3.1 collaboration in the development of quality management plans is carried out according to the mounting program and established quality plan.

3.2 CR information and support that need to be performed various audits of quality of the work is managed according to established procedures.

CR 3.3 cooperation in the control of the quality specifications of materials and other technical resources necessary for the work, is performed in accordance with established procedures and requirements.

CR 3.4 technical specifications of quality in the execution of the installation of the network are controlled and monitored.

CR 3.5 technical specifications of quality in the performance of the stations of regulation and measurement and other auxiliary facilities that require it, are controlled and monitored according to the project's execution.
CR 3.6 takes samples and tests corresponding to the specifications of aggregates, concrete, compacting, tests of resistance, watertightness and others, are carried out in accordance with established procedures, according to the applicable regulations and technical requirements.

4 RP: Support the management of the documentation related to the work processes to ensure the implementation of organisational criteria established by the company, complying with the applicable rules.

CR 4.1 the parties to labour, delivery notes, invoices, control for certificates and other administrative documents are organized and controlled during the Assembly process of the network.

CR 4.2 topography, settlement data and technical specifications documents are monitored and collected to form the documentary basis of the work.

CR 4.3 documentation related to the stations of regulation and measurement, cathodic protection and other auxiliary facilities is managed.

CR 4.4 documentation required before possible inspections is managed according to established procedures and the applicable regulations.

CR 4.5 quality processes and results is reflected in the documentation according to the usual procedures and applicable regulations.

CR 4.6 possible deviations, causes and recommendations for corrective measures to operational incidents are included in reports.



Professional context: means of production: shoring systems, materials handling equipment: bulldozers, excavators, cranes, trucks and other machinery employed in public works, compressors, drilling equipment, trenchless installation systems, useful for hauling, scaffolding. Winch. Tools and measuring tools: measuring tape, circometer, compass thicknesses, level, scale ruler, gauge, electrical measuring equipment, marking and detection, useful for surveying tools, probes. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, leak detection equipment. Security equipments. Material of signage, detectors, harnesses and equipment for personal protection, life lines and other equipment. Column of water, combustion analyzers, ventometros, gauges, valves, pressure switches, solenoid valves of regulation and safety, pressure regulators, filters and leak detectors.



Products and results: facilities and assembled and supervised distribution of gas networks. Documentation related to the work processes.



Used or generated information: projects, cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. Work book, certified tests, x-rays and certificates of non-destructive testing. List of parts and components. Assembly plans. Parts of the work, delivery notes, invoices, control for certificates and other administrative documents. Technical specifications. Testing standards. Catalogues. Service manuals and use. Mounting and operating instructions. Specific computer applications. Internal rules of work. Applicable regulations.



Unit 3 competition: Supervise the commissioning of GAS level networks: 3 code: UC1204_3 realizations professionals and completion criteria: RP 1: organize cleaning, inerting, tightness, pressure testing, control of unions and Visual inspections and with cameras, controlling its application, for the commissioning of the network.

1.1 CR visual inspection and cameras of the gas distribution networks is performed to detect possible anomalies.

CR 1.2 the checks of joints in gas networks is organized and supervised according to established procedures and standards of application.

CR 1.3 the operations of drying and cleaning of networks and facilities is organized and controlled according to established procedures and standards of application.

CR 1.4 the testing of sealing, inerting, and pressure from the networks and facilities is organized and controlled according to established procedures and standards of application.

2 RP: Coordinate tests mechanical and control networks of gas and auxiliary facilities, to put it into service.

CR 2.1 gas distribution networks elements are visually inspected to detect possible anomalies.

CR 2.2 verification that all elements of the networks meet the parameters set, is controlled.

CR 2.3 carrying out the functional testing of the elements the network operators, organizes and controls according to established procedures.

CR 2.4 co-ordination in the functional testing of the elements of control networks of gas and auxiliary facilities, is guaranteed according to established procedures.

CR 2.5 co-ordination in the functional testing of measurement and auxiliary elements of the networks is guaranteed according to established procedures.

3 RP: Monitor the commissioning of work to check that the quality criteria established by the supplier company met.

CR 3.1 the completion of the commissioning of the gas network is controlled and monitored according to the procedures established by the company.

CR 3.2 the criteria of quality and the fulfilment of the necessary environmental measures for the commissioning of the network are controlled and monitored according to the applicable regulations and the requirements of quality.

CR 3.3 final finishing, the resolution of conditions, removal of machinery and infrastructure, cleaning, packaging, seals and other auction of work operations are controlled and monitored.

4 RP: Monitor the documentation related to the process of commissioning of gas networks, according to the applicable regulations and procedures established, for their management and control.

CR 4.1 the parties of labor, delivery notes, invoices, orders and other administrative documents are organized and controlled within the commissioning process.

CR 4.2 administrative procedures and management systems of quality in commissioning apply and monitor for correct execution.

CR 4.3 inventory of the equipment used in the commissioning of services are managed, reviewing them and updating them, including information related to the high, low, and repair.

4.4 CR control and management of the documentation for commissioning processes are carried out using specific computer applications.



Professional context: means of production: column of water, ventometros, pressure gauges. Analyzers of quality gas, combustion analyzers, probes. Valves, pressure switches, solenoid valves of regulation and safety, pressure regulators, filters and leak detectors. Measuring tape, circometer, gross, gauge, scale ruler, compass. Electrical measuring equipment. Useful tagging and detection and useful for surveying. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, leak detection equipment. Security equipments. Material of signage, detectors, harnesses and equipment for personal protection, life lines and other equipment.



Products and results: facilities and service and proven gas distribution networks. Documentation related to the process of commissioning of gas networks managed and supervised.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly plans. Parts of the work. Certifications. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Parts of the work, delivery notes, invoices, orders and other administrative documents. Inventories. Specific computer applications. Internal rules of work. Applicable regulations.



Unit 4 competition: Organize and OVERSEE the maintenance of networks of GAS level: 3 code: UC1205_3 realizations professionals and completion criteria: RP 1: organize processes of preventive maintenance of gas networks, according to requirements, overseeing the process, to comply with the maintenance plan.

CR 1.1 preventive maintenance of gas networks organizes and oversees the technical and administrative documents received and generated using.

CR 1.2 specifications of materials and equipment used in the preventive maintenance of networks are made for the management of its acquisition.

CR 1.3 collection and distribution of stocks of materials needed for the maintenance, through the process of warehouse management, is organized and controlled under premises of effectiveness, efficiency and quality.

CR 1.4 available human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the execution of preventive maintenance, are coordinated and controlled under premises of effectiveness, efficiency and quality.

CR 1.5 review of networks, control systems and other processes, are organized and controlled in order to get most of the maintenance is preventative.
CR 1.6 the corrective measures when there are deviations in relation to the efficient operation of the network are determined and giving instructions for their implementation.

CR 1.7 preventative maintenance tracking is done by controlling the quality of implementation and costs, obtaining indicators of control needed to establish comparisons that shape the lines of action most suitable and solving contingencies with efficiency and fulfilling the programmed objectives.

RP 2: Organize the processes and procedures for corrective maintenance of gas networks, according to the applicable regulations and established procedures of intervention, overseeing the process, to comply with the maintenance plan.

CR 2.1 the corrective maintenance of gas networks organizes and oversees the technical and administrative documents received and generated using.

CR 2.2 specifications of materials and equipment used in the maintenance of gas networks are made for the management of its acquisition.

CR 2.3 human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the execution of corrective maintenance, are coordinated and controlled under premises of effectiveness, efficiency and quality.

CR 2.4 corrective maintenance tracking is done by controlling the quality of the execution and the costs, obtaining indicators of control needed to establish comparisons that shape the lines of action most suitable and solving contingencies with efficiency and fulfilling the programmed objectives.

CR 2.5 data modifications by works or revisions are monitored and collected, to maintain up-to-date databases and information systems.

CR 2.6 attention to notices and claims issues, power outages, request permissions work and other issues arising from the service, directly related to services and customers affected by the performance of the maintenance, is managed with efficiency and quality.

3 RP: Monitor the documentation related to the processes of maintenance of networks of gas, according to the applicable regulations and procedures established, for their management and control.

CR 3.1 the parties of labor, delivery notes, invoices, orders and other administrative documents are organized and controlled within the maintenance process.

3.2 CR administrative procedures and the quality of the maintenance management systems apply and supervise its execution.

CR 3.3 maintenance equipment inventories are managed, reviewing them and updating them, including information related to the high, low, and repair.

3.4 CR control and management of the documentation for maintenance processes are carried out using specific computer applications.

CR 3.5 customer demands are addressed, recorded and transmitted quickly and according to established protocols.



Professional context: means of production: column of water, ventometros, pressure gauges. Analyzers of quality gas, combustion analyzers, probes. Valves, pressure switches, solenoid valves of regulation and safety, pressure regulators, filters and leak detectors. Measuring tape, circometer, gross, gauge, scale ruler, compass. Electrical measuring equipment. Useful tagging and detection and useful for surveying. Hand tools: saw arc, wrenches, pipe cutter, drill, riveting machine, machines for the machining of materials, threading, bending, welding and union equipment, leak detection equipment. Security equipments. Material of signage, detectors, harnesses and equipment for personal protection, life lines and other equipment.



Products and results: facilities and distribution networks of gas maintained, repaired and renovated. Documentation related to maintenance of gas networks managed and monitored processes.



Used or generated information: projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly plans. Parts of the work. Certifications. Technical specifications. Catalogues. Service manuals and use. Mounting and operating instructions. Specifications for materials and equipment. Parts of the work, delivery notes, invoices, orders and other administrative documents. Inventories. Specific computer applications. Internal rules of work. Applicable regulations.



Unit 5 competition: Manage the application of the measures of prevention of risks labour and environmental in networks GAS level: 3 code: UC1206_3 realizations professionals and completion criteria: RP 1: control the fulfillment of the measures of prevention of occupational risks in the Assembly of gas networks, to ensure safety and compliance with applicable regulations.

CR 1.1 professional risks Mount of gas networks are identified and control according to the established procedures and complying with the applicable regulations.

1.2 CR management, deployment and location of infrastructure related to the safety and health in the network mount, develops and controls.

1.3 CR management, deployment, and use of personal protection and safety equipment is developed and controls.

CR 1.4 employment, performance and condition of machinery, vehicles, tools and other equipment used in the work, is monitored from the point of view of safety.

CR the implementation of the plan of work safety in the phase of mounting, 1.5 is monitored.

RP 2: Control the fulfillment of the measures of prevention of occupational risks in the commissioning and maintenance of gas networks, to ensure safety and compliance with applicable regulations.

CR 2.1 occupational risks arising from work in presence of gas are identified and controlled according to established procedures and complying with the applicable regulations.

CR 2.2 management, deployment and location of infrastructure related to the safety and health in the commissioning and maintenance of gas networks, develops and controls.

2.3 CR employment and the status of employees in maintaining personal safety and protection equipment is monitored.

CR 2.4 employment, performance and condition of machinery, vehicles, tools and other equipment used in the work, is monitored from the point of view of safety.

CR 2.5 the implementation of the plan of work safety in commissioning and maintenance processes, is monitored.

3 RP: Monitor compliance with the preventive measures of environmental risks in the installation, commissioning and maintenance of gas networks, to ensure safety and compliance with applicable regulations.

3.1 CR debris and waste produced on site are classified according to typology and endangerment.

3.2 CR evacuation and recycling of rubble and waste produced on-site is managed according to applicable regulations and procedures.

CR 3.3 the vents and discharges of gas into the atmosphere are monitored and controlled according to established procedures.

3.4 CR noise and dust production is controlled according to procedures and limits.

CR 3.5 vegetation affected by the works is controlled by managing transplants, replanting and other measures to minimize conditions.

4 RP: Managing emergencies in the installation, commissioning and maintenance of networks of gas in the shortest possible time taking into account the conditions of quality and safety.

4.1 CR imminent risks or damage are identified and evaluated according to interior and exterior emergency plan.

CR 4.2 the rugged protection and isolation of the cause which has produced the accident is managed immediately.

CR 4.3 emergency is valued according to the established procedures and complying with applicable safety regulations.

CR 4.4 the request for emergency relief is managed as set out in the security plan and applicable legislation.

4.5 CR first aid delivery and management, deployment and use of security of gas supply infrastructure, develop and control managing situations of nervousness and disorder.

CR 4.6 the use, operation and use of personal security and protection equipment used in the work of implementing the emergency plan is monitored.

CR 4.7 prepares reports to damage and other aspects related to emergencies according to established specifications and procedures.



Professional context: means of production: Security Plan. Internal and external emergency plan. Signalling material. Detection and fire extinguishing equipment. First aid kit. Gas detectors. Personal protective equipment.



Products and results: facilities and gas networks installed, implemented and maintained according to the requirements of safety and environmental prevention established.



Used or generated information:
Projects. Cutting and assembly drawings. Isometric drawings. Schemes and diagrams of principle. List of parts and components. Assembly plans. Programs of maintenance, maintenance procedures. Parts of the work. Technical specifications. Catalogues. Service manuals and use. Operating manual. Specific computer applications. Internal rules of work. Applicable regulations.



TRAINING module 1: planning of GAS level networks: 3 code: MF1202_3 associated with the UC: collaborate in the planning of the implementation of gas lasting networks: 150 hours capabilities and evaluation criteria: C1: analyze the operation of gas networks by determining their characteristics and functional parameters to plan his execution.

CE1.1 describe the general operation of a network of gas and their systems of control based on the corresponding plans.

CE1.2 list and describe the function that perform the various components that make up the gas networks and their auxiliary facilities by establishing its limits and possibilities of use.

CE1.3 describe the requirements of the regulations applicable to such facilities.

CE1.4 perform, at its level, the technical calculations to assess the operating parameters of the gas networks.

C2: Analyzing projects for gas distribution network to get the information needed in planning them.

CE2.1 describe the documents that make up a project, technical report, or plan of installation of a gas network to plan his execution.

CE2.2 represent, manually or with help of aided design, principle diagrams, sketches and isometric diagrams of a network of gas and its components to facilitate mounting.

CE2.3 determine the installation parameters from performances in reform of gas networks are incorporated that new sections or modification of the existing ones from the respective projects or technical reports.

CE2.4 in a so-called practical planning of the implementation of a network of gas with its auxiliary facilities, corresponding drawings and technical documentation:-identify the components of the network, by specifying the characteristics of each of the elements that compose them.

-Make diagrams, calculations and supplemental plans derived from the need for greater detail or the setting out of the works.

-Relate the composition and characteristics of the network planned or, where appropriate, modified, with the applicable regulatory requirements.

C3: Elaborate work plans for assembling networks of gas according to the project and established work procedures.

CE3.1 set the sequence and general organization of the work, optimizing the process in terms of safety, method and time.

CE3.2 perform necessary schedules, integrating the needs of human resources required in each phase.

CE3.3 define the duties of persons involved in the Assembly of a specific network of gas where there is civil works, mounting of pipes and ancillaries, and implementation in service.

CE3.4 in one or more practical case of project planning of Assembly of gas networks, containing various sectors with tubes of different diameters and different elements in their auxiliary facilities:-design the sequence and phases of the work, analyzing different possibilities.

-Establish the needs of the human resources required in different phases and their functions.

-Use computer applications in support of the project planning of networks.

C4: Planning the layout of gas network, recreating the work plans that were necessary.

CE4.1 identify and evaluate the adaptation of the network to the project, planning the forecast location, marking, and connection of pipes, valves, valve boxes, control panels, regulation and measure stations and other necessary elements of the network and its auxiliary facilities.

CE4.2 perform symbolic diagrams, sketches of detail and complementary to the project plans that are necessary in the process of rethinking.

CE4.3 consider the work and determine the services that may be affected and its scope, analyzing in detail, among others, the consequences for the ro-ro traffic, pedestrian access, security in the supply of water, gas, electricity and telecommunications, managing the necessary measures so that the conditions are minimal.

CE4.4 in one or more practical case of project planning of Assembly of gas networks, containing various sectors with tubes of different diameters and different elements in their auxiliary facilities:-designing and sequencing the rethinking of the work process.

-Carry out symbolic diagrams, sketches of detail and complementary plans to support the process of rethinking and marking.

-Identify the affected services.

-Propose the necessary actions with respect to the affected services.

C5: Develop plans for procurement of necessary resources and complete documentation and initial work permits.

CE5.1 on one or several so-called practical planning of Assembly of gas networks projects, identify the needs of provisioning, making the planning of supplies within the framework of the system used for the management of stocks.

CE5.2 define the characteristics of documentation related to official permits to carry out the work.

CE5.3 complete and process technical and administrative documents required for obtaining permits.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.4; C3 on CE3.4; C4 on CE4.4; C5 regarding CE5.1.

Other skills: be responsible for the fulfilment of the objectives and the work that develops.

Participate and collaborate actively in the task force.

Respect the procedures and internal rules of the organization.

Convey information with clarity, orderly, structured, clear and precise; respecting the channels established in the organization.

Demonstrate flexibility to understand changes.

Sharing information with the team.



Contents: 1. physics of fluids applied to basic concepts of fluid gas distribution networks: pressure, flow rate, pressure loss, circulation regime. Laws and basic equations in fluid dynamics. Concept of gas and physico-chemical properties of combustible gases. Ignition and combustion of gases. Interchangeability. Odorization. Liquefied gases.



2. classification of gas supply networks gas distribution systems. Installation configuration. Parties and constituents. Pipes. Methods of calculation. Operation of each of the parties. Auxiliary facilities: stations of measurement, cathodic protection, stations de compression, odorant, knots of valves, scraper traps and regulation. Applicable regulations.



3. projects of networks gas concept and types of projects. Memory, plans, budget and specifications. Development.

Procedures and layout of facilities operations. Additional calculations. Procurement program. Administrative permissions work. Levels of situation. Drawings of gas distribution networks. Auxiliary facilities plans: stations of measurement, cathodic protection, stations de compression, odorant, knots of valves, scraper traps and regulation. Detail and assembly drawings. Symbolic drawings, diagrams and logical diagrams. Diagrams, flow charts, and schedules. Display and interpretation of scanned drawings. Basic operations with graphics files.



4 Organization and planning of the execution of a work organization systems works. Methods of work. Analysis of machinery and equipment used in works. Conditions to buildings and existing services. Planning of works. Planning systems. Planning control. Control systems. Planning and computer-assisted control.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to collaboration in the planning of the implementation of gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 2: development of works of networks of GAS level: 3 code: MF1203_3 associated with UC: control the development of network of gas duration: 150 hours capabilities and evaluation criteria:
C1: Analyze the Assembly of a gas network planning and developing detailed work programmes for each of the phases of implementation.

CE1.1 interpret the planning documentation and Assembly of the work program, determining the different phases.

CE1.2 define the critical points in the coordination of the work of the different guilds.

CE1.3 detailing the work plan and schedule of the civil works of the work.

CE1.4 carry out the work plan and timetable for laying and connection of pipes and placement of valves and other elements of the network.

CE1.5 carry out the work plan and timetable for the stages of finishing, filling, compacting, cleaning and disinfection.

C2: Develop proposals for supervision of the tasks related to the installation of the gas network.

CE2.1 describe the critical tasks that are necessary to monitor in detail, in each of the stages of the Assembly process.

CE2.2 explain procedures and specifications of Assembly tasks that have to be monitored.

CE2.3 in one or more practical cases of development of gas network, containing various sectors with tubes of different diameters and different elements in their auxiliary facilities:-define Assembly tasks critical to monitor.

-Explain the procedures to be used in each of the phases of Assembly.

-Propose a model for supervision of the Assembly defining the monitoring points and moments to be carried out.

C3: Analyze requirements and the factors that influence the quality of the installation of a network of gas made of cast iron, polyethylene, steel or any other material.

CE3.1 list the constructive quality criteria in the realization of ditches and support and placement of pipes, valuing the determinants.

CE3.2 define the quality criteria in the connection of pipes and registration systems, assessing the determinants.

CE3.3 detail the quality criteria in the placement of elements of control, measurement and control, assessing the determinants.

CE3.4 explain the quality criteria in the automation of networks, evaluating the determinants.

CE3.5 define the quality criteria in filling and compaction of ditches and general of the work.

CE3.6 testing and tests on site for the control of quality of materials and construction elements of the networks.

C4: Manage the technical and administrative documentation related to the control of the execution of the work.

CE4.1 describe the documents that make up a project, technical report, or Assembly of a gas network plan to organize the Assembly.

CE4.2 determine the needs of procurement of materials, equipment and machinery necessary for the realization of each of the parts of a work.

CE4.3 interpret documentation deadlines, place of delivery and terms of delivery of materials and equipment required for the execution of the work.

CE4.4 completed, the administrative documentation related to the process of execution of works of gas networks.

CE4.5 use computer applications for the monitoring and control of works of gas networks.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.3; C4 on CE4.4.

Other skills: be responsible for the work that develops, fulfilling the objectives and deadlines.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Communicate effectively with the right people, at all times; respecting the channels established by the organization.

Participate and collaborate actively in the task force.

Demonstrate flexibility to understand changes.

Sharing information with the team.



Contents: 1. transport and distribution of gas machinery works. Signage and layout. Depth of trenches and distances. Lag. Crosses and Parallels. Protection with other services. Works in the presence of electrical conductors. Works in the presence of water. Possible presence of gas works. Special channels: aerial, unstable soils.



2. mechanical Assembly of piping of gas characteristics of different types of pipe networks. Materials: cast iron, polyethylene, steel and others. Mechanical operations: joints, connections to distribution systems, shutter. Renovation of piping systems. Mounting of auxiliary facilities.



3. quality in the Assembly of gas networks quality Control of materials used in the gas networks. Quality in Assembly operations. Technical documentation of the quality processes. Manual of procedure. Quality management.



4 control and management of network of gas schedules. Documentation of the materials. Management of personnel in work documents. Budgetary control systems. Control of welds and joints. The installation supervision of gas networks.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the control of the development of gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 3: systems commissioning of GAS level networks: 3 code: MF1204_3 associated with UC: supervise the commissioning of gas lasting networks: 60 hours capabilities and evaluation criteria: C1: organize and conduct checks and pre-testing of the gas distribution work to ensure the conditions required for its entry into service.

CE1.1 relate the Visual checks and functional tests that require gas distribution works.

CE1.2 justify and define testing cleaning, inerting, tightness, pressure, control of unions, prior to the commissioning of the network, by establishing relationships with application regulations.

CE1.3 sequence and define the characteristics of cleaning, inerting, tightness and pressure tests, detailing the procedures and equipment needed to make them.

CE1.4 in a practical course of operation of a network of gas with its auxiliary facilities:-perform cleanup operations prior to putting into service of the gas network.

-Carry out recovery operations.

-Test of tightness and pressure.

C2: Organize and putting into service of gas networks complying with the demands of quality and safety.

CE2.1 identify and sequence the Visual inspections in the process of commissioning of the network.

CE2.2 describe procedures for the operation of the network.

CE2.3 establish quality criteria which must comply with the commissioning of the network processes.

CE2.4 list and classify the equipment and tools needed for the start-up of the network.

CE2.5 define different security risks and the respective corrective measures in the commissioning of the network.

CE2.6 in a practical course of operation of a network of gas with its auxiliary facilities:-describe the procedure for commissioning.

-Specify the criteria for quality of commissioning.

-Specify the criteria of security of commissioning.

-Perform the implementation in the gas network service.

C3: Arrange the necessary documentary archive for the implementation service and delivery of the work.

CE3.1 describe the necessary technical and administrative documents in the commissioning of the gas installation work.

CE3.2 describe procedures and management procedures to develop for the implementation in service and delivery of the work.

CE3.3 in one or more practical cases of operation of networks of gas, containing various sectors with tubes of different diameters and different elements in their auxiliary facilities:-interpret the operation manuals incorporating, where appropriate, the modifications arising from contingencies arising during the work or the putting into service of the same.

-Prepare the necessary documentation for commissioning.

-Prepare the full dossier of the work of installation of gas in format and suitable support.

Skills whose acquisition must be completed in a real work environment: C1 with respect to CE1.4; C2 regarding CE2.6; C3 on CE3.3.

Other capabilities: communicate effectively with the right people, at all times; respecting the channels established in the organization.

Responsible for the work developed and the fulfilment of the objectives.

Complete the work according to criteria of fitness, speed, economy and efficiency.
Demonstrate a degree of autonomy in the resolution of contingencies related to its activity demonstrate flexibility to understand changes.

Sharing information with the team.



Contents: 1. operations prior and commissioning of installations of gas protection of pipes and fittings. Cathodic protection. Inspection and testing of resistance and watertightness. Purged. Pressure test. Trials of installations and equipment. Ditch filling.



2 automation and control networks of gas regulation and automation of gas networks. Measurement and instrumentation. Local and global control of gas installations. Programmable controllers and remote management systems. Geographic information systems.



3. documentation and acceptance of works acceptance works. Documents associated with the tests. Operation and maintenance manuals. Plans of settlement. Programs and computer media.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the supervision of the commissioning of gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 4: Organization and maintenance of networks of GAS level CONTROL: 3 code: MF1205_3 associated with UC: organize and oversee the maintenance of networks of gas duration: 90 hours capabilities and evaluation criteria: C1: analyze the general operation of gas networks to establish the maintenance plan.

CE1.1 describe the functioning of a network or installation of gas from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 point out the elements of a network of gas on which can be operated manually or automatically and the consequences of his manipulation.

CE1.3 determine the critical points where faults can occur with important consequences for users, the environment and own gas supply service quality.

C2: Make proposals for organization of the preventive and corrective maintenance to gas networks.

CE2.1 interpret technical information from manufacturers of equipment and facilities to move the data necessary to the maintenance of the gas network program.

CE2.2 describe, update and improve maintenance of in-house programs, ensuring that they incorporate the definition of tasks, procedures and methods of intervention, checking ranges, times and the necessary human and material resources.

CE2.3 define the quality criteria in the most frequent and important preventive or corrective maintenance interventions.

CE2.4 describe various models of organization of the preventive and corrective maintenance in networks and auxiliary facilities of gas, assessing the advantages and disadvantages from the points of view of the quality, cost and service security.

CE2.5 establish the technical and economic criteria for the maintenance, rehabilitation and renovation of networks.

CE2.6 reason the functioning of the management of the acquisition of spare parts and their relationship with the Organization of the store, determining the criteria for the purchase of stocks.

CE2.7 consider the Organization of preventive maintenance periods, operations and review times for each of the elements or critical points in an auxiliary gas system.

C3: Analyze and apply techniques of fault diagnostics with the support of systems of automation and improving the performance of gas networks.

CE3.1 describe different media and techniques for detecting leaks in networks, applying them to practical situations.

The CE3.2 is determining the objectives and methods in conducting audits of gas networks.

CE3.3 interpret the instruments and systems for registration of gas network variables.

CE3.4 complete control of maintenance and the historical data sheets using geographical information systems.

CE3.5 interpret several practical assumptions of historical troubleshooting an installation of auxiliary gas and propose improvements in the Organization of preventive maintenance to optimize service and the own work of maintenance.

CE3.6 use the systems of remote control and telecommunications in an auxiliary installation or required in the procedures set out in the management of the maintenance.

CE3.7 in one or more practical cases of organization and supervision of the maintenance of gas networks:-define the methodology to be used for the diagnosis of the failure and/or intervention to perform.

-Interpret indications of the measuring devices, assessing the correlation between the actual and setpoint values to make a diagnosis of the operation of the installation.

-Complete historical documents relating to the intervention.

-Organize databases of networks and auxiliary installations of gas and use this information to monitor the performance of the facilities.

C4: Managing the processes and documentation related to the operation and maintenance of gas networks.

CE4.1 describe and organize the parts of work, delivery notes, invoices, orders, inventories and other paperwork associated with maintenance.

CE4.2 describe the process of the customer demands, considering systems of integrated management of complaints, faults and performances in the distribution of gas.

CE4.3 use computer applications of general purpose and type Scada, in the processes of operation and maintenance of networks and auxiliary facilities of gas.

CE4.4 fill in the documentation associated with the company quality management systems.

Skills whose acquisition must be completed in a real work environment: C2 with respect to CE2.7; C3 on CE3.7.

Other capabilities: communicate effectively with the right people, at all times; respecting the channels established in the organization.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Responsible for the work developed and the fulfilment of the objectives.

Complete the work according to criteria of fitness, speed, economy and efficiency.

Demonstrate flexibility to understand changes.

Sharing information with the team.



Contents: 1. maintenance of networks of gas structure of maintenance programs. Function, objectives and types. Outsourcing of maintenance services. The maintenance organization. Inspections. Economic maintenance. Warehouse and maintenance material. Supplies. Organization and management of maintenance warehouse. Homologation of suppliers. Technical specifications of spare parts.



2. management of the maintenance of networks of gas planning and preventive maintenance management. Critical points of maintenance on gas networks. Interventional procedures. Security. Systems and quality management procedures. Integrated management of faults, claims and actions. Risk prevention and maintenance safety. Specific computer maintenance management applications.



3. documentation of the maintenance of networks of gas inventory. Warehouse management. Notices of breakdowns and claims. Maintenance manuals. Programs and computer media.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the Organization and supervision of the maintenance of gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.



TRAINING module 5: Labor and environmental risk management in networks of GAS level: 3 code: MF1206_3
Associated with the UC: manage the implementation of the measures of prevention of occupational and environmental risks in networks of gas duration: 60 hours capabilities and evaluation criteria: C1: define the measures of prevention and safety regarding the mounting, commissioning and maintenance of gas distribution networks by analyzing the applicable legislation and the company's security plan.

CE1.1 identify and evaluate occupational hazards present in the Assembly of gas networks.

CE1.2 collaborate on the design of safety manuals, proposing improvements and preventive and corrective measures to the detected risks.

CE1.3 technically justify the measures of prevention and security in networks based on the typology of risks mount.

CE1.4 collaborate with the Department of management of occupational risks in the design of the requirements of signage in the area of work according to the location.

CE1.5 describe the normative references safety related to the installation of distribution networks gas and interpret the protocols of action possible emergencies arising during the work.

CE1.6 collaborate with the Department of management of occupational risks in the design of the training required by the erection personnel on prevention of risks and emergencies.

CE1.7 raise the security of a work of sanitation or gas supply plan, determining the type and level of risks, work to use signalling system and description of the necessary personal protective equipment.

C2: Analyze and consider the prevention and safety measures necessary in the execution of works of gas networks.

CE2.1 point and rating most frequent occupational hazards present in the works with earthworks, proposing corrective measures for their elimination or control.

CE2.2 identify and evaluate specific occupational risks related to the implementation of pits and ditches, proposing corrective measures for their elimination or control.

CE2.3 evaluate the specific occupational hazards related to suffocation and deflagration in gas networks, proposing corrective measures for their elimination or control.

CE2.4 describe and analyze most frequent occupational hazards present in the handling of tools and portable equipment used in works, proposing corrective measures for their elimination or control.

CE2.5 describing and evaluating occupational hazards related to the use of pressure groups, proposing corrective measures for their elimination or control.

CE2.6 explain the occupational hazards related to the use of lifting systems and other techniques of displacement of loads used in works, proposing corrective measures for their elimination or control.

CE2.7 describe the requirements of signalling of work areas and procedures for the preparation, determining the corresponding specific risks and their corrective measures.

CE2.8 in one or more practical cases of management of occupational and environmental risks in gas networks:-raise the Organization's systems of signaling in the work.

-Describe and assess the emergency plan, determining emergency situations, phases, communication systems and personnel and entities of action.

-To develop the documentation and reports requiring a particular contingency.

C3: Analyze and propose the necessary environmental protection measures in the execution of works of gas networks.

CE3.1 identify and assess environmental risks frequently asked in the works with earthworks and propose corrective measures.

CE3.2 explain the environmental risks associated with the production of debris and waste materials.

CE3.3 explain the environmental risks related to the vents and poured gas into the atmosphere.

CE3.4 describe the procedures for the management of waste materials and debris.

CE3.5 classify and explain the techniques and procedures for the restitution of vegetation affected by works of gas networks.

C4: Reason and value with accidents emergency devices, describing each of them and establishing actions to be carried out in each case.

CE4.1 describe an emergency plan, analyzing the parts in which is divided.

CE4.2 describe the demands derived from a plan of emergency required material resources.

CE4.3 define the actions to be followed by persons before an accident or a contingency related to suffocation, describing each of the measures of protection, assessment, support and first aid.

CE4.4 define the actions to be followed by persons before an accident or a contingency related to the entrapment in ditches, describing each of the measures of protection, assessment, support and first aid.

CE4.5 define the actions to be followed by persons before an accident or a contingency related to the explosion, describing each of the measures of protection, assessment, support and first aid.

CE4.6 fill in descriptive reports of the situation of emergency and damage assessment.

Skills whose acquisition must be completed in a real work environment: other capabilities: interpret and execute work instructions.

Responsible for the work developed and the fulfilment of the objectives.

Communicate effectively with the right people at any given time, respecting the channels established in the organization.

Demonstrate a degree of autonomy in the resolution of contingencies related to its activity.

Sharing information with the team.

Act quickly in problematic situations and not just waiting.



Contents: 1. occupational hazards and preventive measures in networks of gas identification and evaluation of risks. Security plans. Security techniques. Risk analysis. Applicable safety and environmental standards.



2. environmental risks and preventive measures in the gas works waste networks. Evacuation and treatment. Discharges to the environment. Pollution. Greenhouse effect. Environmental impact. Replacement of mulches.



3. installation and maintenance of networks of individual protection equipment gas safety equipment. Security Miscellanea. Signalling systems. Maintenance of equipment.



4 Emergency Plan for gas networks emergencies. Assessment of the accident. First aid.



Parameters of the training context: spaces and facilities: the spaces and facilities will answer, in the form of classroom, classroom workshop, workshop practice, laboratory, or space, to training needs, in accordance with the professional context established in the competition unit associated, taking into account the applicable regulations of the productive sector, risk prevention, occupational health, universal accessibility and environmental protection.



Professional profile of the trainer or trainer: 1. domain of knowledge and techniques related to the management of the implementation of the measures of prevention of occupational and environmental risks in gas networks, which will be using one of the following ways:-academic training level 2 (Spanish framework for higher education qualifications), engineering or other upper level related to the professional field.

-Professional experience of minimum 3 years in the field of skills related to this training module.

2. accredited educational competition in accordance with it to establish the competent administrations.