The Organic Law of 19 June, of Qualifications and Vocational Training, aims at the organisation of an integral system of vocational training, qualifications and accreditation, which will respond effectively and transparency of social and economic demands through the various forms of training. To this end, it creates the National System of Qualifications and Vocational Training, defining it in Article 2.1 as the set of instruments and actions necessary to promote and develop the integration of vocational training offerings, through the National Catalogue of Professional Qualifications, as well as the evaluation and accreditation of the corresponding professional skills, in order to promote the professional and social development of the people and cover the needs of the production system. The National Catalogue of Professional Qualifications, as set out in Article 7.1, is designed to facilitate the integrated nature and the adequacy of vocational training and the labour market, as well as training in the course of the life, mobility of workers and the unity of the labour market. This catalogue consists of the qualifications identified in the production system and the training associated with them, which is organised in training modules, which are articulated in a modular vocational training catalogue. Under Article 7, the structure and content of the National Catalogue of Professional Qualifications were established by means of Royal Decree 1128/2003 of 5 September, as amended by Royal Decree 1416/2005 of 25 November. According to Article 3.2, according to the wording given by this last royal decree, the National Catalogue of Professional Qualifications will make it possible to identify, define and order professional qualifications and establish the specifications of the training associated with each unit of competence; as well as establishing the benchmark for evaluating and crediting the professional skills acquired through the work experience or non-formal training pathways. This royal decree establishes four new professional qualifications with their associated training, corresponding to the professional family energy and water, which are defined in Annexes 261 to 264, thus advancing in the construction of the National catalogue of professional qualifications. These vocational qualifications have been drawn up by the National Qualifications Institute by means of the methodology approved by the General Council for Vocational Training, which has been implemented with the participation and cooperation between the social and economic actors involved in the sector, as well as with the Autonomous Communities and other competent public administrations. According to Article 5 (1) of the Organic Law of 19 June 2002 on Qualifications and Vocational Training, it is the responsibility of the General Administration of the State in the field of exclusive competence conferred on the State by the Article 149.1.1. and 30. the regulation and coordination of the National System of Qualifications and Vocational Training, without prejudice to the competences that correspond to the Autonomous Communities and the participation of the social agents. In accordance with Article 7.2 of the same organic law, the Government is entrusted, after consulting the General Council of Vocational Training, to determine the structure and content of the National Catalogue of Professional Qualifications and to approve the qualifications to be included in the same, as well as ensuring their permanent updating. The present royal decree has been informed by the General Council of Vocational Training and by the School Board of the State, in accordance with the provisions of Article 9.1 of Royal Decree 1128/2003 of 5 September. In its virtue, on a proposal from the Ministers of Education and Science and Labour and Social Affairs and after deliberation by the Council of Ministers at its meeting on 24 August 2007,

D I S P O N G O:

Article 1. Object and scope of application.

This royal decree aims to establish certain professional qualifications which are included in the National Catalogue of Professional Qualifications and their corresponding training modules, which are incorporated into the Catalogue Modular Vocational Training, regulated by Royal Decree 1128/2003 of 5 September, as amended by Royal Decree 1416/2005 of 25 November. These qualifications and their associated training are valid and are applicable throughout the national territory and do not constitute a regulation of professional practice.

Article 2. Professional qualifications that are established.

The professional qualifications that are established correspond to the professional family energy and water and are the ones listed below, ordered by skill levels, whose specifications are described in the Annexes to the following: Assembly and maintenance of photovoltaic solar installations. Level 2: Annex CCLXI.

Organization and control of assembly and maintenance of water and sanitation networks and installations. Level 3: Annex CCLXII. Organisation and projects of photovoltaic solar installations. Level 3: Annex CCLXIII. Organization and projects of thermal solar installations. Level 3: Annex CCLXIV.

Single additional disposition. Update.

Taking into account the evolution of the needs of the productive system and the possible social demands, as regards the qualifications established in this royal decree, an update of the content will be carried out of the Annexes where necessary, in any case before the end of the five-year period since its publication.

Final disposition first. Competence title.

This royal decree is dictated by the powers conferred on the State by Article 149.1.1. and the 30th of the Spanish Constitution and under paragraph 2 of the first provision of the Organic Law of 19 Article 7 (3) of Regulation (EC) No 121/2003 of the European Parliament and of the Council of 17 May 2003 on the application of the laws of the Member State of the European Parliament and of the Council of the European Parliament and of the Council of the European Parliament and of the Council

Final disposition second. Entry into force.

This royal decree will enter into force on the day following its publication in the "Official State Gazette".

Given in Palma de Mallorca, 24 August 2007.

JOHN CARLOS R.

First Vice-President of the Government and Minister of the Presidency, MARIA TERESA FERNÁNDEZ DE LA VEGA SANZ

ANNEX CCLXI

Professional qualification: Montage and maintenance of photovoltaic solar installations

Professional family: Energy and Water.

Level: 2. Code: ENA261_2.

General competition:

To carry out the assembly, commissioning, operation and maintenance of photovoltaic solar installations with the required quality and safety and complying with the current regulations.

Competition Units:

UC0835_2: Repose photovoltaic solar installations.

UC0836_2: Mount photovoltaic solar installations. UC0837_2: Maintain photovoltaic solar installations.

Professional environment:

Professional scope: Develop your professional activity, both self-employed, in small and medium-sized enterprises, public or private, dedicated to the promotion, assembly, operation and maintenance of photovoltaic solar installations for the production of electrical energy, connected to a network or isolated, with or without a support system.

Productive Sectors:

It is located in the energy sector, subsector of renewable energies, in the productive activities in which the assembly, the exploitation and the maintenance of photovoltaic installations for the production of electric power is carried out.

Relevant Occupations and Jobs:

Photovoltaic solar installations.

Solar PV installations operator.

Associated Training (450 hours): Training Modules:

MF0835_2: Repose of solar PV installations (120 hours).

MF0836_2: Solar PV installations (270 hours). MF0837_2: Maintenance of photovoltaic solar installations (60 hours).

Competition Unit 1: Repose photovoltaic solar installations

Level: 2.

Code: UC0835_2.

Professional realizations and realization criteria:

RP1: Repose photovoltaic panels from a project or technical memory in order to perform its assembly.

CR1.1 The type of photovoltaic panels to be installed as well as their functional characteristics and specifications are identified using the technical and administrative information derived from the project or technical memory.

CR1.2 The location of the photovoltaic panels is located from the corresponding drawings and technical specifications. CR1.3 The possible dysfunctions that are detected between the project or the technical memory of the installation and the location of the panels, are transmitted to the superior responsible, proposing solutions if appropriate. CR1.4 The locations and anchoring characteristics, supports and connections of the different components and constructive elements are pre-determined to be assembled. CR1.5 The marking of the location of the panels is carried out on the ground from the project or the technical memory and taking into account the characteristics of the place. CR1.6 The signaling of the affected work area is performed according to safety requirements and regulatory requirements.

RP2: Repose grid-connected photovoltaic solar installations from a project or technical memory in order to perform its assembly.

CR2.1 The type of connection to be performed as well as the functional characteristics and specifications of the various elements and protections are identified using the technical and administrative information derived from the project or technical memory.

CR2.2 The connection point and the characteristics of the network to which the installation is to be connected are identified from the corresponding drawings and technical specifications. CR2.3 The possible dysfunctions detected between the project or the technical memory of the installation and the location of the elements, are transmitted to the superior responsible, proposing solutions if appropriate. CR2.4 The marking of the location of the equipment, as well as the layout of the pipes, are carried out on the spot from the project or technical memory and taking into account the characteristics of the place. CR2.5 The signalling of the affected work area is performed according to safety requirements and regulatory requirements.

RP3: Repose isolated photovoltaic solar installations from a project or technical memory in order to perform its assembly.

CR3.1 The intended storage/accumulation type as well as the functional characteristics and specifications of the various elements and protections are identified using the technical and administrative information derived from the project or technical memory.

CR3.2 Possible dysfunctions that are detected between the project or the technical memory of the installation and the site of the components are transmitted to the superior, proposing solutions if appropriate. CR3.3 The marking of the location of the equipment, as well as the layout of the pipes, are carried out on the ground from the project or technical memory and taking into account the characteristics of the site. CR3.4 The signalling of the affected work area is performed according to safety requirements and regulatory requirements.

RP4: Repose the energy support system in isolated installations from a project or technical memory.

CR4.1 The type of energy support system envisaged as well as the functional characteristics and specifications of the different elements and protections are identified using the technical and administrative information derived from the project or technical memory.

CR4.2 The site of the energy support system is located from the corresponding drawings and technical specifications. CR4.3 The marking of the location of the equipment, as well as the layout of the pipes, are carried out on the spot from the project or technical memory and taking into account the characteristics of the place. CR4.4 The signalling of the affected work area is performed according to safety requirements and regulatory requirements.

Professional context:

Production media: Drawing use. Personal computer. Software. GPS, anemometer, veleta, compass, topographical devices. Marking tools. Signalling material. Safety equipment.

Products and results:

Photovoltaic solar installations interpreted and reposed. Modifications of photovoltaic solar installations reposed.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly programmes, parts of work; technical specifications; tables, graphs and solar maps; catalogues; service and use manuals; assembly and operating instructions; traditional and digitised mapping; UNE standards. Low-Tension Electrotechnical Regulation, safety regulations, municipal ordinances and building codes.

Competition Unit 2: Mount photovoltaic solar installations

Level: 2.

Code: UC0836_2.

Professional realizations and realization criteria:

RP1: Prepare and organize the assembly of media, panels, storage system, support systems, tracking systems, electrical and electronic circuits and equipment of photovoltaic solar installations with the corresponding project and the assembly programme. CR1.1 The assembly sequence is established from drawings and technical documentation, optimizing the process in terms of safety, method and time.

CR1.2 The necessary materials, tools and other technical resources are selected according to the type of solar photovoltaic installation to be performed. CR1.3 The reception of components is carried out by inspecting and evaluating the state of the components, determining their suitability to the technical requirements. CR1.4 The work area is prepared according to the requirements of the work itself and according to established work procedures. CR1.5 The coordination, at its level, with the different people involved in the work is carried out on the basis of efficiency and safety criteria.

RP2: Act according to the security plan of the company, carrying out the preventive, corrective and emergency tasks, applying the measures established and complying with the rules and legislation in force, in the assembly of photovoltaic solar installations.

CR2.1 Professional risks of electrical and chemical origin related to storage/accumulation systems are identified, evaluated and corrected, communicating, where appropriate, to the person responsible for the safety in the assembly of the solar photovoltaic installation.

CR2.2 The professional risks of mechanical and electrical origin related to wind support systems are identified, evaluated and corrected, communicating, where appropriate, to the person responsible for the safety plan in the installation of the solar photovoltaic installation. CR2.3 Professional risks of mechanical, electrical and environmental origin related to support systems through conventional electrogas groups are identified, evaluated and corrected, communicating, where appropriate, to the responsible person. of the safety plan in the assembly of the solar photovoltaic installation. CR2.4 The means of protection, in the face of the risks arising from assembly, are selected and used appropriately to avoid accidents. CR2.5 The working areas of your responsibility are maintained in order and cleaning conditions in order to avoid accidents. CR2.6 The protocol for action in cases of emergency is still adapted to the situation.

RP3: Mount supports and panels, including with tracking system, of photovoltaic solar installations, from drawings and technical specifications, complying with the regulated requirements and the implementing rules, in the quality and safety conditions laid down.

CR3.1 The displacement and location of the materials and equipment is performed without deterioration, with the means of transport and lifting required and in safety conditions.

CR3.2 The supports, shoes and anchor points of the panels and accessories are placed according to the project specifications, especially taking care of the possible perforations of covers and the replacement of constructive elements existing. CR3.3 The photovoltaic panels are placed at the distance, inclination and with the interconnections established in the technical specifications. CR3.4 Solar tracking systems are placed according to project specifications and corresponding assembly manuals.

RP4: Mounting the storage/accumulation systems of photovoltaic solar installations, from drawings and technical specifications, complying with the regulated requirements and the implementing rules, in the the quality and safety conditions laid down.

CR4.1 The benches, supports, frames, storage/storage system trays are installed according to the technical specifications of the project or technical memory.

CR4.2 The installation and connection of storage/accumulation systems is performed according to the technical specifications of the project or technical memory by checking the necessary ventilation of the local. CR4.3 The charging systems, control systems and electrical and electronic circuits are installed according to the technical specifications of the project or technical memory.

RP5: Mounting the electrical circuits and equipment of photovoltaic solar installations, from drawings and technical specifications, complying with the regulated requirements and the implementing rules, under the conditions of quality and safety.

CR5.1 The types and characteristics of the equipment and mounted elements ensures that they are the ones that correspond to the characteristics of the installation to be fed and that they respond to the function that they have to perform.

CR5.2 The assembly of the pipes, electrical conductors, detector elements, measurement and protection elements, tracking system and other components of the electrical installation is carried out using the means established and applying the required procedures and relevant regulations. CR5.3 The construction and assembly of the control and automatics of the installation is carried out according to the Electrotechnical Regulation of Low Tension. CR5.4 Electrical connections between elements are performed according to the current project or technical memory and regulations. CR5.5 The control elements are programmed according to the corresponding technical documentation and the established operating conditions.

RP6: Mounting conventional generators, small-power wind systems and other support systems for solar photovoltaic installations, based on technical specifications and drawings, complying with the requirements of the regulatory requirements and the rules of application, under the established quality and safety conditions.

CR6.1 The types and characteristics of the equipment and mounted elements ensures that they are the ones that correspond to the characteristics of the installation to be fed and that they respond to the function they have to perform.

CR6.2 The installation of the support system is performed according to the project or technical memory and applying the corresponding regulation. CR6.3 The installation of the pipes, electrical conductors and interconnection of the installation is carried out using the means established and applying the required procedures. CR6.4 The construction and assembly of the control and automatism frames of the support installation is carried out according to the Low Tension Electrotechnical Regulation. CR6.5 Electrical connections between elements are performed according to current project or technical memory and regulations. CR6.6 Control elements are programmed according to the relevant technical documentation and the working conditions established.

RP7: Perform the commissioning and testing of solar PV installations, based on drawings and technical specifications, complying with regulatory requirements and implementing rules, under the conditions of established quality and safety.

CR7.1 Isolation tests, ground measure, absence of short circuits, panel production, accumulator load status, and other pre-regulated network connection measures are performed according to established procedures.

CR7.2 The correct operation of the tracking system is verified by checking the response of the tracking system to changes in the adjustment parameters. CR7.3 The correct operation of the storage-accumulation system is verified by checking the response of the storage system to load variations. CR7.4 The correct operation of the devices and systems of protection and safety in the photovoltaic solar installations is verified prior to the putting into service. CR7.5 The network connection and/or the different support systems are carried out in accordance with established procedures and protocols. CR7.6 The correct operation of the installation is verified, checking the data obtained from the reference parameters, adjusting them and looking for maximum energy efficiency. CR7.7 The signage for the operation and security of the facility is checked to be the one established and meets the regulatory requirements. CR7.8 The technical and administrative documentation required in the commissioning process of the solar photovoltaic installation is prepared or completed.

Professional context:

Production means: Work tools, tools and measuring devices: Equipment for movement of materials, cranes, tros, hoists, winches, hydraulic jacks, polymeter, amperimetric clamp. GPS, anemometer, veleta, compass, topographical devices. Hand tools: arc saw, screwdrivers, fixed keys, dynamometer keys, flexometer, marking tools, maces, level, pliers, pelacables, welder, scissors, terminal tongs, drilling machine, electric screwdriver, riveting, and useful for hoisting. Safety equipment. Signalling systems. Facilities components: photovoltaic panels, supports, inverters, measuring equipment, control equipment.

Products and results:

Solar photovoltaic installation mounted and connected to the electric power transmission and distribution system.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly programmes, parts of work; technical specifications; tables, graphs and solar maps; Traditional and digitised cartography; catalogues; service and use manuals; assembly and operating instructions; UNE standards, Low Tension Electrotechnical Regulation, network connection regulations, safety regulations, municipal ordinances and building codes.

Competition Unit 3: Maintain photovoltaic solar installations

Level: 2.

Code: UC0837_2.

Professional realizations and realization criteria:

RP1: Prepare and organize the maintenance work of photovoltaic solar installations according to the established intervention procedures. CR1.1 The maintenance to be performed and the intervention sequence are determined using the plans and technical specifications of the equipment and facilities to keep optimizing the process in terms of safety, method and time.

CR1.2 Materials and other necessary technical resources are appropriately selected for the performance to be performed. CR1.3 The work area is prepared in accordance with the requirements of the action itself and according to established work procedures.

RP2: Act according to the security plan of the company, carrying out the preventive, corrective and emergency tasks, applying the measures established and complying with the rules and legislation in force in the maintenance of photovoltaic solar installations.

CR2.1 Professional risks are identified, evaluated and corrected, communicating, where appropriate, to the person responsible for the safety plan in the maintenance of photovoltaic solar installations.

CR2.2 The means of protection, in the face of the risks arising from maintenance, are selected and used appropriately to avoid accidents and minimise the risk. CR2.3 The working areas of your liability are maintained in order and cleaning conditions in order to avoid accidents. CR2.4 The protocol for action in cases of emergency is still adapted to the situation.

RP3: Perform the manoeuvring operations and preventive maintenance of the photovoltaic solar installations from planes, standards and technical specifications, for operation within the established parameters, complying with the regulated requirements, under the conditions of established quality and safety.

CR3.1 Operating manoeuvres in grid-connected photovoltaic solar installations are performed according to the established sequence, optimizing the process in terms of safety, method and time.

CR3.2 Operating manoeuvres in isolated photovoltaic solar installations, including support systems, are performed according to the established sequence, optimizing the process in terms of safety, method and time. CR3.3 The cleaning, tightening of terminals, checking of the state of the connection to the ground and of the diode of protection of photovoltaic panels are carried out with the means and procedures established. CR3.4 The density and level checking operations of the electrolytic liquid, the state of terminals and their connection, and the oiling of the accumulation systems are performed with the established means and procedures. CR3.5 The correct tightness and the absence of corrosion of the equipment and installations is checked with the corresponding periodicity. CR3.6 The state of electrical insulation, voltage drop and performance of the safety elements and protection of equipment and installations is checked with the corresponding periodicity. CR3.7 The systems of wind support or conventional generators are checked with the corresponding periodicity, ensuring their operation within the established parameters. CR3.8 The guidance and monitoring subsystems are checked by ensuring their functioning within the parameters set. CR3.9 The measurements of the parameters characteristic of the installation are obtained and compared with the reference ones. CR3.10 The equipment and tools used are reviewed and maintained in perfect operation. CR3.11 The results of the inspections and operations carried out are included in the relevant report.

RP4: Perform corrective maintenance operations on solar photovoltaic installations, establishing the process of action, using manual and instructions manuals and restoring functional conditions with the required quality and safety.

CR4.1 The different breakdowns are detected, analyzed, and evaluated for their causes.

CR4.2 The sequence of performance in the breakdown is established by optimizing the process in terms of method and time, selecting the necessary equipment, tools, materials, useful and auxiliary means. CR4.3 The replacement of the damaged element is carried out according to the sequence of the disassembly and assembly process established, within the prescribed time, with the required quality and checking its operation. CR4.4 Impaired elements are analysed by identifying their broken parts and, where appropriate, their repair is carried out. CR4.5 The modifications or extensions in the solar photovoltaic installation are carried out according to the corresponding instructions. CR4.6 The functionality of the installation is restored with the required speed, quality and safety. CR4.7 The parts and reports of the repair are completed in accordance with established procedures.

Professional context:

Production means: Work tools, tools and measuring devices: Equipment for movement of materials, cranes, tros, hoists, winches, hydraulic jacks, braces, polymeter, amperimetric clamp, tachometer, anemometer. Radiation meter. Compass, topographical devices. Hand tools: arc saw, screwdrivers, fixed keys, flexometer, marking tools, maces, level, pliers, peelable, welder, scissors, tongs for terminals, drilling machine, electric screwdriver, rivet and hoisting tools. Safety equipment. Components of the installations: photovoltaic panels, supports, inverters, measuring equipment, control equipment, masts, gondolas, blades, rotor, multipliers, batteries, conventional generators.

Products and results:

Installed and maintained PV installation.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; maintenance programs, parts of work; technical specifications; map of solar paths; Traditional and digitised cartography; catalogues; service and use manuals; assembly and operation instructions; databases; computer programs; UNE standards, electrical regulation, environmental regulations, safety regulations.

Form 1: Repose of Solar PV Facilities

Level: 2.

Code: MF0835_2. Associated with the UC: Repose photovoltaic solar installations. Duration: 120 hours.

Assessment Capabilities and Criteria:

C1: Analyze the most relevant functions, laws and rules of electricity, describing the functionality of the electrical elements and assemblies present in the photovoltaic solar installations. CE1.1 Explain the laws and rules applicable to the analysis and resolution of electrical circuits, identifying the magnitudes and characteristics of the electricity.

CE1.2 Explain the processes of transformation, rectification and accumulation of electricity. CE1.3 Describe the constitution and operation of distribution lines and their protection systems. CE1.4 To describe the main applications of electricity, as well as the constitution and operation of the characteristic receivers and their systems of regulation. CE1.5 Explain the characteristics of the measurement systems of the electrical parameters. CE1.6 Identify the graphical symbology of electrical schemes, interpreting the relationship between the different partial schemes of the system considered. CE1.7 To describe the risk prevention and safety measures related to the use of electricity.

C2: Analyzing the operation of grid-connected photovoltaic solar installations to determine their characteristics and elements related to the repose and assembly thereof.

CE2.1 Razonar the general electrical operation of a solar photovoltaic installation connected to a network and its control systems from the corresponding planes.

CE2.2 List, describe and reason the function of the various electrical components that integrate the solar photovoltaic installations connected to the network. CE2.3 Describe and reason for the role of solar monitoring systems. CE2.4 To describe the fundamental requirements of the regulations and standards applicable to this type of plant: Electrotechnical Regulation of Low Tension, UNE Standards and safety standards.

C3: Analyze the operation of the isolated photovoltaic solar installations and their support systems to determine their characteristics and elements related to the repose and assembly thereof.

CE3.1 Razon the general electrical operation of an isolated solar photovoltaic installation and its control systems from the corresponding planes.

CE3.2 List, describe and reason the function of the different electrical components that integrate the solar photovoltaic systems isolated. CE3.3 List the different support systems used in the isolated photovoltaic solar installations and describe and reason the operation of each of them. CE3.4 To describe the fundamental requirements of the regulations and standards applicable to this type of plant: Electrotechnical Regulation of Low Tension, UNE Standards and safety standards.

C4: Interpret projects and technical memories of grid-connected photovoltaic solar installations to perform repose and other operations related to its assembly.

CE4.1 Describe the different documents that make up a project, a technical memory of a solar photovoltaic installation connected to a network, distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE4.2 Represent schemes and sketches of a grid-connected photovoltaic solar installation and its components to reframe its assembly. CE4.3 Manage and interpret graphic information of network-connected photovoltaic solar installations developed with representation systems corresponding to specific design software, performing basic copying or copying operations modification of data by means of standardized procedures. CE4.4 Perform replanting and mark the location of anchorages, supports, ditches, route of channelings based on plans and technical documentation. CE4.5 Describe the signaling requirements of the work area according to the site. CE4.6 In a practical case or actual assembly of a solar photovoltaic installation connected to a network with follow-up, of a minimum photovoltaic power of 750 W, characterized by the drawings and the corresponding technical documentation:

− Identify the different components of the installation, locating your site.

− Specify the characteristics of each of the elements that compose them: panels, supports and anchors, tracking system, inverters, measuring devices and protection. − Razon the electrical operation of the installation, describing the function, structure and composition of the different parts that configure it. − Perform the repose operations and mark the location of the components. − Perform the signage of the work area. − Relate the composition and characteristics of the photovoltaic solar installation to the regulatory requirements that apply to it.

C5: Interpret projects and technical memories of isolated photovoltaic solar installations with support systems to perform repose operations and others related to their assembly.

CE5.1 Describe the different documents that make up a project, technical memory of an isolated solar photovoltaic installation distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE5.2 Represent schemes and sketches of an isolated solar photovoltaic installation and its components to reframe its assembly. CE5.3 Manage and interpret graphic information of isolated photovoltaic solar installations developed with representation systems corresponding to specific design software, performing basic copying operations or modification of data by means of standardized procedures. CE5.4 Carry out replanting and mark the location of anchorages, supports, ditches, route of channelings based on plans and technical documentation. CE5.5 Describe the signaling requirements of the work area according to the site. CE5.6 In a practical or real case of an isolated photovoltaic solar installation with an energy support system, of a minimum photovoltaic power of 250 W, minimum capacity of 500 Ah and support by wind system of minimum power of 100 W and group Electrogen, characterized by the drawings and the corresponding technical documentation:

− Identify the different components of the installation, locating your site.

− Specify the characteristics of each of the elements that compose them: panels, supports and anchors, accumulators, small wind turbines, conventional generators, measuring devices and protection. − Razon the electrical operation of the installation, describing the function, structure and composition of the different parts that configure it. − Perform the repose operations and mark the location of the components. − Perform the signage of the work area. − Relate the composition and characteristics of the photovoltaic solar installation to the regulatory requirements that apply to it.

Capabilities whose acquisition must be completed in a real working environment: C4 with respect to CE4.6; C5 with respect to CE5.6. Other capabilities:

Prove a good professional.

Propose alternatives with the aim of improving results.

Contents:

1. General electrotechnics related to photovoltaic solar installations. Nature of the electricity. Properties and applications.

Electrical current. Electrical quantities. Magnetism and electromagnetism. Electrical circuits. Structure and components. Symbology and graphic representation. Circuit analysis. Protective systems. Batteries and accumulators. Classification, typology and characteristics. Main electronic components. Typology and functional characteristics. Photovoltaic effect. Three-phase electrical systems. Static and rotary electric machines. Typology and features. Generators, transformers and motors. Load regulators. Investors. Measures of electrical quantities. Procedures. Measuring instruments. Errors to the measure. Electrical safety.

2. General operation of photovoltaic solar installations.

Global operation and configuration of a grid-connected solar photovoltaic installation.

Global operation and configuration of an isolated solar photovoltaic installation. Storage and accumulation. Global operation and configuration of a support facility with small wind turbine, generator group. Protection and safety systems in the operation of installations. Specifications and description of equipment and constituent elements: panels, supports and anchorages, inverters, accumulators, small wind turbines, conventional generators, regulation and control equipment, measuring devices and protection. Implementing rules: municipal ordinances, safety regulations, building codes, Low Tension Electrotechnical Regulation and its Technical Complementary Instructions (JTI), network connection regulations, UNE standards of application.

3. Symbolic representation of photovoltaic solar installations.

System dihedral and croquized. Perspective.

Electrical symbology. Representation of electrical circuits. One-off and multi-filar scheme. Functional symbolic diagrams and diagrams.

4. Projects and technical memories of photovoltaic solar installations.

Concept and types of projects and technical memories.

Memory, plans, budget, specifications and safety and health study. Situation plans. Drawings of detail and set. Diagrams, flowcharts, and chronograms. Procedures and operations for repose of installations. Computer equipment in assisted design and representation. Assisted design programs. Visualization and interpretation of digitized planes. Basic operations with graphic files. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-160 m2 electrical network facilities workshop. -Outer surface for electrical installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the repose of photovoltaic solar installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or others of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Formative Module 2: Photovoltaics Solar Facility Assembly

Level: 2.

Code: MF0836_2. Associated with the UC: Mount photovoltaic solar installations.

Duration: 270 hours. Assessment capabilities and criteria:

C1: Develop work plans for the mechanical and electrical assembly of photovoltaic solar installations according to the corresponding projects or technical memories and established working procedures. CE1.1 Describe the different techniques to be used in the mechanical and electrical assembly processes of photovoltaic solar installations: assembly, bolting, threading, riveting, anchoring, fastening, recessed, laying, muddling, assembling, welding, connection and adjustment.

CE1.2 Identify the materials and tools to be used in the different assembly processes of photovoltaic solar installations. CE1.3 Relate the human resources involved in the different phases of the assembly operations of photovoltaic solar installations. CE1.4 Optimize the assembly from the point of view of the security, functionality and economy of time, means and cost. CE1.5 Represent the schemes of organization of work and control of times in the mechanical and electrical assembly of photovoltaic solar installations by means of diagrams and timetables appropriate to their level. CE1.6 In a practical case of a prefabricated solar photovoltaic installation establish the sequence of assembly from drawings and technical documentation, optimizing the process in terms of safety, cost, method and time. CE1.7 In a practical case of a solar photovoltaic installation connected to a network with a monitoring system, of a minimum photovoltaic power of 750 W and characterized by the installation plans and commissioning manuals:

− Select the materials, tools, and other technical resources required to perform the work.

− Determine the human resources required in the different phases. − Determine the adequacy of the components to the technical prescriptions and prepare a report of disconformities. − Determine the sequence of assembly by a flujogram. − Define mechanical and electrical assembly techniques at the key points of the installation.

CE1.8 In a practical case of an isolated solar photovoltaic installation with support system, of a minimum PV power of 750 W, minimum capacity of 350 Ah and minimum wind power of 250 W and power group and characterized by the installation plans and commissioning manuals:

− Select the materials, tools, and other technical resources required to perform the work.

− Determine the human resources required in the different phases. − Determine the adequacy of the components to the technical prescriptions and prepare a report of disconformities. − Determine the sequence of assembly by a flujogram. − Define mechanical and electrical assembly techniques at the key points of the installation.

C2: To analyze the prevention and safety measures regarding the mechanical and electrical assembly of photovoltaic solar installations contained in the safety plans of the companies in the sector.

CE2.1 Identify and evaluate the professional risks present in the mechanical and electrical assembly of photovoltaic solar installations.

CE2.2 Propose preventive and corrective measures in the face of identified risks including selection and appropriate use of individual and collective protective equipment. CR2.3 Identify noise protection requirements derived from wind systems and conventional electrical groups from isolated photovoltaic solar installations. CE2.4 Describe the requirements of the work areas and the procedures for their preparation, determining the specific occupational risks and their corrective actions. CE2.5 Specify the aspects of safety regulations related to the mechanical and electrical assembly of photovoltaic solar installations. CE2.6 To describe the protocols of action in the face of possible emergencies arising during the mechanical assembly of photovoltaic solar installations. CE2.7 To describe the protocols of action in the face of possible emergencies arising in the assembly of the electrical circuits and equipment of photovoltaic solar installations. CE2.8 Detail the requirements of first aid in different scenarios of accidents arising from the mechanical and electrical assembly of photovoltaic solar installations. CE2.9 In a practical case of an isolated solar photovoltaic installation with support system of a minimum PV power of 750 W, minimum capacity of 350 Ah and support by means of wind system of minimum power of 250 W and power group and characterized by the installation plans and commissioning manuals:

− Identify mechanical hazards related to the assembly of structures and panels and propose control or correction measures.

− Identify professional risks related to the assembly of electrical circuits and equipment and propose control or correction measures. − Identify mechanical hazards related to the assembly of wind systems and propose control or correction measures. − Identify chemical risks related to the assembly of wind accumulation systems and propose control or correction measures. − Identify professional risks related to the assembly of conventional electrogenics and propose control or correction measures.

C3: Perform assembly operations of solar installations from the technical documentation, using the tools, equipment and materials suitable and acting under safety standards.

CE3.1 Describe methods and procedures for moving media and structures in safety conditions, and redesigning the criteria for their most suitable location.

CE3.2 Describe the types of supports and anchorages that are common in photovoltaic solar installations, including with monitoring and support systems and placement procedures respecting regulatory distances. CE3.3 Describe the requirements of the work areas and the procedures for their preparation, determining the specific risks involved and their corrective actions. CE3.4 Place supports and anchorages of panels with systems of monitoring, systems of accumulation and systems of support. CE3.5 In a practical case of a solar photovoltaic installation connected to a network with a monitoring system, of a minimum photovoltaic power of 750 W and characterized by the installation plans and commissioning manuals:

− Prepare the work area according to the requirements of the work itself.

− Move the media and structures, placing them in the appropriate place according to the work to be performed. − Check the marking on the ground and the repose of the installation for the placement of supports. − Place the supports and anchorages of panels and tracking systems according to the foreseeable efforts to support.

C4: Perform mechanical and electrical assembly operations and commissioning of solar photovoltaic installations from the technical documentation, using the tools, equipment and materials suitable and acting under safety standards.

CE4.1 Placing the photovoltaic panels with the set orientation and inclination.

CE4.2 Mounting tracking systems. CE4.3 Mount the accumulation systems. CE4.4 To assemble the systems of wind support and conventional electrogenics. CE4.5 Describe the techniques and procedures for assembly and connection of pipes and conductors. CE4.6 Explain the techniques of assembly and connection of electrical and control panels and other electrical and electronic elements of photovoltaic solar installations. CE4.7 Prepare, place and connect the electrical elements of the panels, accumulation systems and support systems of the photovoltaic solar installations, operating with the equipment and tools according to established procedures. CE4.8 Describe the commissioning operations of the different photovoltaic solar installations. CE4.9 In a practical case of a solar photovoltaic installation connected to a network with a monitoring system, of a minimum photovoltaic power of 750 W and characterized by the installation plans and commissioning manuals:

− Prepare the work area according to the requirements of the work itself.

− Move the equipment and materials, placing them in the appropriate place according to the work to be done. − Place the panels with the inclination required by the geographical area and other requirements of the installation. − Mount and apply corrosion protections. -To assemble the necessary electrical boxes, pipes and conductors, according to the Low Tension Electrotechnical Regulation and other implementing regulations. − Make the connection to a network. − Check the adequacy of the operating parameters to the reference parameters. − Leave the working environment in optimal order and cleaning conditions after assembly operations. − Generate report on performed tasks, anomalies, and incidents.

CE4.10 In a practical case of an isolated solar PV installation with support system of a minimum PV power of 750 W, minimum capacity of 350 Ah and support by means of a minimum power wind system of 250 W and Electrogenic group and characterized by installation plans and commissioning manuals:

− Prepare the work area according to the requirements of the work itself.

− Move and locate the equipment and materials, placing them in the appropriate place according to the work to be performed. − Install the system of energy support respecting the requirements of the same. − Place the panels with the inclination required by the geographical area and other requirements of the installation. − Install the accumulation system according to requirements. − Mount and apply corrosion protections. -To assemble the necessary electrical boxes, pipes and conductors, according to the Low Tension Electrotechnical Regulation and other implementing regulations. − Perform the commissioning of the installation. − Check the adequacy of the operating parameters to the reference parameters. − Leave the working environment in optimal order and cleaning conditions after assembly operations. − Generate report on performed tasks, anomalies, and incidents.

Capabilities to be acquired in a real working environment: C3 with respect to CE3.5; C4 with respect to CE4.9 and CE4.10.

Other capabilities:

Finish the job within the set deadlines.

Show collaborative attitude in coordinating work with other guilds. Show attentive and responsible attitude in security aspects.

Contents:

1. Assembly of panels of photovoltaic solar installations. Classification of electrical power supply facilities. Measure of electrical quantities.

Committed and general protection frames. Protections. Types and characteristics. Channelings and conductions. Drivers. Electrical and electronic equipment for protection, maneuver and safety. Motorization and automatic solar tracking system. Types of panels. Specifications. Clustering and connection systems. Orientation and inclination. Shadows. Solar tracking.

2. Structures for securing photovoltaic solar installations.

Civil work: displacement and lifting of equipment and materials.

Types of efforts. Elementary calculation of efforts. Resistant structures. Types. Materials. Supports and anchors. Resistance of constructive elements. Waterproofing. Architectural and urban integration. Aesthetics and technique. Structures of the monitoring systems. Structures of the accumulation systems. Structures of the wind systems. Benches of conventional electrogenics.

3. Assembly of circuits and electrical equipment of photovoltaic solar installations.

Determination and selection of equipment and elements required for mounting from the installation plans.

Organization of the assembly of electrical and electronic circuits and equipment of photovoltaic solar installations. Techniques and procedures. Assembly of circuits and electrical equipment of photovoltaic solar installations. Assembly of electrical and electronic circuits and equipment of wind and power support systems. Assembly of electrical and electronic circuits and equipment of accumulation systems. Interconnection of the different subsystems of photovoltaic solar installations. Useful, tools and means used in the assembly. Techniques of use.

4. Quality in the assembly of photovoltaic solar installations.

Quality in the assembly. Specifications for technical requirements and quality control.

Quality control of materials used in the assembly. Quality in assembly operations. Basic economic and strategic aspects of quality. Processes of technical documentation of quality. Manual of procedures.

5. Safety in the assembly of photovoltaic solar installations.

Safety plans in the assembly of photovoltaic solar installations.

Prevention of professional risks in photovoltaic solar installations. Risks arising from monitoring systems. Risks arising from accumulation systems. Risks arising from wind support systems. Working areas. Safety signage. Emergencies. Evacuation. First aid. Training context parameters:

Spaces and facilities: − Multi-purpose Aula of a minimum of 2 m2 per pupil.

− 160 m2 electrical network facility workshop. − External surface for electrical installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the assembly of photovoltaic solar installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other related higher level with this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Maintenance of solar photovoltaic installations

Level: 2.

Code: MF0837_2. Associated with the UC: Maintain photovoltaic solar installations.

Duration: 60 hours. Assessment capabilities and criteria:

C1: Analyze the general operation of solar photovoltaic installations to develop the maintenance plan. CE1.1 Describe the operation of a solar photovoltaic installation from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 Identify in a plane of a photovoltaic solar installation the different elements on which preventive maintenance must be carried out from a certain maintenance program. CE1.3 Reasoning the consequences, for a given installation, of the breakdowns in its critical points. CE1.4 In a practical case of a solar photovoltaic installation connected to a network with a monitoring system of a minimum photovoltaic power of 750 W, and characterized by the installation plans and the commissioning and maintenance manuals:

− Develop the overall program of maintenance performances.

− Determine the types of operations to perform. − Determine the periodicity of the operations to be performed. − Determine the times for each intervention. − Determine the technical and human resources involved in the operations.

CE1.5 In a practical case of an isolated solar photovoltaic installation, of a minimum photovoltaic power of 250 W, minimum capacity of 500 Ah and support by means of wind system of minimum power of 100 W and characterized by the Installation plans and commissioning and maintenance manuals:

− Develop the overall program of maintenance performances.

− Determine the types of operations to perform. − Determine the periodicity of the operations to be performed. − Determine the times for each intervention. − Determine the technical and human resources involved in the operations.

C2: To analyze the measures of prevention, safety and environmental protection regarding the maintenance of photovoltaic solar installations contained in the safety plans of the companies of the sector.

CE2.1 Identify and evaluate the professional risks present in the maintenance of photovoltaic solar installations.

CE2.2 Propose preventive and corrective measures in the face of identified risks including selection and appropriate use of individual and collective protective equipment. CE2.3 Identify the environmental protection requirements derived from the maintenance of the systems for the accumulation of photovoltaic solar installations. CE2.4 Describe the requirements of the work areas and the procedures for their preparation, determining the specific occupational risks and their corrective actions. CE2.5 Specify the aspects of safety regulations related to the maintenance of photovoltaic solar installations. CE2.6 Detail the action protocols in the face of possible emergencies during the maintenance of photovoltaic solar installations. CE2.7 To describe the requirements of first aid and the transfer of accidents in different scenarios of accidents resulting from the maintenance of photovoltaic solar installations.

C3: Perform preventive maintenance operations of photovoltaic solar installations following the procedures and specifications of the installation maintenance plan.

CE3.1 Previewing the scope and complexity of the performance, determining the consequences for users of the lack of supply or generation and organizing the work to minimize these consequences.

CE3.2 Manage, prepare and use the materials, equipment, and tools required to perform preventive maintenance. CE3.3 Reasoning the need for preventive maintenance operations in the panels, monitoring systems, accumulation systems, wind support systems and conventional electrogenics and other equipment and components photovoltaic solar installations according to an established method. CE3.4 Describe the procedures of each of the preventive maintenance operations that must be performed on the equipment and components of the photovoltaic solar installations. CE3.5 In a practical case of a solar photovoltaic installation connected to a network with a monitoring system of a minimum photovoltaic power of 750 W and characterized by the installation plans and the commissioning and maintenance manuals:

− Identify the items on which preventive maintenance operations are to be performed.

− Prepare the work area according to the requirements of the operation according to established work procedures, identifying the specific occupational risks and their corrective actions. − Check general condition of supports, protections and insulating material. -Perform cleaning operations, tightening of terminals, checking the state of the connection to the ground and the protection diodes of the panels. − Check the state of electrical insulation, stress drop and performance of safety elements and protections. − Check the status of the guidance and tracking subsystems. − Check the main variables of the installation and compare the measurements obtained with those set out in the technical specifications, optimizing the performance with efficiency criteria, and verifying that its performance is adjusted to the established parameters. − Review and maintain in operational state the equipment and tools used in the maintenance. − Fill in the action report.

CE3.6 In a practical case of an isolated solar photovoltaic installation with support system of a minimum photovoltaic power of 250 W, minimum capacity of 500 Ah and support by wind system of minimum power of 100 W and which is characterised by installation plans and commissioning and maintenance manuals:

− Identify the items on which preventive maintenance operations are to be performed.

− Prepare the work area according to the requirements of the operation according to established work procedures, identifying the specific occupational risks and their corrective actions. − Check general condition of supports, protections and insulating material. -Perform cleaning operations, tightening of terminals, checking the state of the connection to the ground and the protection diodes of the panels. − Check the state, density and level of the electrolytic liquid, the state of terminals and their connection, as well as the oiling of the accumulation systems. − Check the state of electrical insulation, stress drop and performance of safety elements and protections. − Check the status of the regulator and investor. − Check the status of the wind support subsystems and conventional generators. − Check the main variables of the installation and compare the measurements obtained with those set out in the technical specifications, optimizing the performance with efficiency criteria, and verifying that its performance is adjusted to the established parameters. − Review and maintain in operational state the equipment and tools used in the maintenance. − Fill in the action report.

C4: Perform corrective maintenance operations of photovoltaic solar installations according to established procedures to return them to their operational status within the established parameters.

CE4.1 Diagnose the usual breakdowns that occur in photovoltaic solar installations, determining the cause of the same and their effects on the system.

CE4.2 Describe the procedures of each corrective maintenance operation to be performed on the equipment and components of the facility. CE4.3 Describe the tools and auxiliary equipment used in corrective maintenance operations, reasoning the way they are used and maintained. CE4.4 In one or more practical cases of photovoltaic solar installations in a defective state:

− Identify possible breakdowns and their causes.

− Prepare the work area according to the requirements of the operation according to established work procedures, identifying the specific occupational risks and their corrective actions. − Describe the repair procedure, isolating the circuit or component if necessary. − Replace the defective item. − Connect the system. − Check the operation of the system by verifying that it conforms to the set parameters. − Review and maintain in operational state the equipment and tools used in the maintenance. − Fill in the action report.

Capabilities whose acquisition must be completed in a real working environment: C3 with respect to CE3.5 and CE3.6; C4 with respect to CE4.4. Other capabilities:

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

Treat the customer with courtesy, respect and discretion. Show attentive and responsible attitude in security aspects.

Contents:

1. Maintenance of photovoltaic solar installations. General operation of a solar photovoltaic installation.

Procedures and operations for taking action. Checking and adjusting the parameters to the watchword values. Maintenance programmes for photovoltaic solar installations. Manuals. Projects. Critical breakdowns. Rules of application in the maintenance of photovoltaic solar installations.

2. Preventive maintenance of photovoltaic solar installations.

Preventive maintenance program.

Energy Management Program. Power tracking generated. Performance evaluation. Mechanical operations in the maintenance of installations. Electrical operations for the maintenance of circuits. Usual equipment and tools. Procedures for cleaning, greasing, filling of electrolytic fluids, for elements of auxiliary installations.

3. Corrective maintenance of photovoltaic solar installations.

Diagnosis of breakdowns.

Procedures for electrically isolating the different components. Methods for the repair of the various components of the installations. Disassembly and repair or replacement of electrical and mechanical elements.

4. Quality in the maintenance of photovoltaic solar installations.

Quality in maintenance. Specifications for technical requirements and quality control.

Quality tools applied to the improvement of maintenance operations. Technical documentation of the quality. Reports and control parts. Maintenance manual.

5. Safety in maintenance.

Safety plans in the maintenance of photovoltaic solar installations.

Prevention of professional risks in the field of maintenance of photovoltaic solar installations. Safety equipment and equipment. Personal protective equipment. Use and maintenance. Prevention and environmental protection. Emergencies. Evacuation. First aid. Working areas. Safety signage. Implementing rules. Training context parameters:

Spaces and facilities: − Multi-purpose Aula of a minimum of 2 m2 per pupil.

− 160 m2 electrical network facility workshop. − External surface for electrical installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the maintenance of photovoltaic solar installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or others of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLXII

Professional qualification: Organization and control of assembly and maintenance of water and sanitation networks and facilities

Professional Family: Energy and Water.

Level: 3. Code: ENA262_3.

General competition:

Organize, develop and control projects for the assembly of water and sanitation networks, supervise the commissioning and organize maintenance, taking into account the requirements of efficiency, efficiency, quality of supply and safety, complying with the rules in force.

Competition Units:

UC0838_3: Collaborate in the planning of the execution of works of networks and facilities for the supply and distribution of water and sanitation.

UC0839_3: Control the development of works of networks and facilities for the supply and distribution of water and sanitation. UC0840_3: Oversee the commissioning of water supply and distribution networks and facilities. UC0841_3: Organize the maintenance of water supply and distribution facilities and sanitation.

Professional environment: Professional scope:

Develops its professional activity both self-employed and foreign, in the area or department of production of small, medium and large companies, public or private, dedicated to the development of projects, the assembly, the operation and/or maintenance of water supply and distribution networks and sanitation.

Productive Sectors:

It is located in the energy sector, subsector of the collection, purification and distribution of water, in the productive activities in which the assembly is carried out, the exploitation and the maintenance of facilities of collection, distribution of water and sanitation.

Relevant Occupations and Jobs:

Charge for mounting water supply and distribution networks.

Manager for assembly of network and sanitation facilities. In charge of maintenance of water networks. In charge of maintenance of sewerage networks.

Associated training (480 hours). Training Modules

MF0838_3: Water supply and distribution networks and facilities (150 hours).

MF0839_3: Development of works of networks and facilities for the supply and distribution of water and sanitation (150 hours). MF0840_3: Water and sanitation systems (60 hours). MF0841_3: Organization of the maintenance of water distribution and sanitation networks (120 hours).

Competition Unit 1: Collaborate in the planning of the execution of works of water supply and distribution networks and facilities

Level: 3.

Code: UC0838_3.

Professional realizations and realization criteria:

RP1: Interpret the project or technical memory of the assembly of a water supply and distribution network, to proceed to the planning of its execution and to the definition of the phases of work. CR1.1 The project or plan memory is parsed or interpreted in the planning process.

CR1.2 The topographical and site characteristics of the projected network are interpreted from the project plans. CR1.3 The functional and auxiliary equipment characteristics of the projected network are interpreted from the project plans. CR1.4 The elements related to the organization and control of the execution are interpreted from the documentation of the project or plan of the work. CR1.5 Computer programs used in the planning of water and sanitation network projects are used to access project information.

RP2: To collaborate in the preliminary definition of the phases of work, program of supply, realization of the schedule and planning of the resources, both material and human, that are involved in the execution of the work.

CR2.1 The sequencing and general organization of the work is established from the project, carrying out a work plan in which the process is optimized in terms of security, method and time.

CR2.2 The required schedules for each of the mounting phases are performed on the basis of the job plan. CR2.3 The provisioning plan is carried out by coordinating the assembly plan with the possibilities of supply and storage and guaranteeing the supply at the appropriate time. CR2.4 The preliminary organization of the human resources and necessary means is established by defining the functions of each operator or guild and its correlation with the technical means programmed in each phase. CR2.5 Computer programs used in the planning of water and sanitation network projects are used to sequence and organize the execution of the work.

RP3: Organize the repose of the work, both in the verification and contrast of the data on the ground and of its marking and of the approach of the necessary modifications.

CR3.1 The possible dysfunction between the project of the installation and the site itself is monitored, adopting the corresponding decisions.

CR3.2 The locations and anchor characteristics, supports, and connections of the various components and building elements are pre-monitored to mount. CR3.3 The complementary schemes necessary for the repose and assembly of water distribution networks are performed in those cases that are required. CR3.4 The marking of the lines of the pipes and other elements of the network is monitored, verifying that it is carried out on the ground from the installation project and taking into account the characteristics of the site and recording the possible services concerned, in order to allow their installation. CR3.5 The affected work area signaling is monitored that is performed according to regulatory requirements.

RP4: Collaborate in the management of documentation and administrative processing related to the conditions to services and third parties as well as the processing of necessary permits.

CR4.1 The documentation related to the required official permissions on the work is managed.

CR4.2 Project documents, symbolic schemas, material lists, operating manuals, and other technical documents are managed. CR4.3 The parties, members, quality checks and other administrative documents are managed.

RP5: Verify the safety and health plan and plan its implementation, control and monitoring, in the execution of the work, ensuring compliance with all environmental aspects.

CR5.1 The work safety plan is interpreted and worked out.

CR5.2 The planning of the material resources required for the development of the security plan is performed. CR5.3 The planning of the installation of the network or installation is carried out according to the requirements of the safety plan. CR5.4 The forecast and planning of the emergency plan is integrated into the planning of the work. CR5.5 The design of the training or information necessary to move the requirements of the safety plan to the different operators under his command is carried out. CR5.6 Environmental conditions are contrasted and the criteria for action are set for minimisation.

Professional context:

Production media: Drawing use. Personal computer. Software. Marking tools. Pics, signalling material. Safety equipment. Surveying tools, cable detectors, sheet detectors, gas detectors, vehicles.

Products and results:

Water distribution network facilities interpreted and reposed. Facilities for sewerage networks interpreted and reposed. Modifications of reposed water distribution and sanitation networks.

Information used or generated:

Projects, floor plans, assembly plans, assembly plans, and detail, cutting, isometric planes; schematics and diagrams of principle; listing of parts and components; assembly programs; technical specifications; catalogues; manuals of service and use; assembly and operation instructions, safety and hygiene regulations, environmental standards, standards and application ordinances.

Competition Unit 2: Control the development of works of water supply and distribution networks and facilities

Level: 3.

Code: UC0839_3.

Professional realizations and realization criteria:

RP1: Organize and control the different phases of execution of the work of water distribution and sanitation, according to the established schedule, making, at its level, the corresponding adaptations from the possible contingencies that may originate. CR1.1 The planning of the assembly of the water or sanitation network or installation is used to propose the organization of the work of the different parts of the work.

CR1.2 The work of the different people and guilds involved in the work is coordinated by ensuring that the objectives are met according to criteria of effectiveness, efficiency, quality and safety. CR1.3 The excavation, protection of slopes, buries, heaheals, implantation of necessary achiques, preparation and levelling of the bed of sand and other operations in the ditches are monitored according to the specifications of the project. CR1.4 The preparation of the points of placement of the heads of the tubes, the points of implantation of the knots and the establishment of the anchor massifs is proven to be realized according to the specifications of the project. CR1.5 The execution of the water network pipe laying is monitored according to the project specifications. CR1.6 The execution of the pipe laying of the sanitation network is monitored according to the specifications of the project. CR1.7 The execution of the assembly and connection of pipes is monitored according to the specifications of quality and safety required. CR1.8 The location and position of the valves, suction cups, regulation elements and installed accessories is monitored, verifying that it conforms to the specifications of the project. CR1.9 The assembly of the flow meters, presostats, level probes and other detector elements of the system variables is monitored according to the project specifications. CR1.10 The protection against corrosion, oxidation and mechanical impacts and the thermal insulation of the networks and elements are monitored according to the specifications of the project. CR1.11 The removal of the burbation, the filling of the filling, its compaction and the replenishment of surfaces are monitored according to the specifications of the project.

RP2: Organize and control the sourcing and supply of materials to the work according to established procedures in the company and ensuring compliance with the implementing regulations.

CR2.1 The selection of the necessary equipment, tools and other technical resources is monitored in each of the phases of the work.

CR2.2 The supply of the various materials with respect to their delivery times, supply conditions, storage and distribution management, coordinates, controls and monitors, according to the specifications and rules stipulated. CR2.3 The 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 elevation required and in conditions of safety. CR2.4 The tools, machinery and auxiliary media are organized and maintained for execution with maximum safety and performance.

RP3: Collaborate in the monitoring and control of the quality of the work according to established procedures in the company and ensuring compliance with the implementing regulations.

CR3.1 The collaboration in the development of quality management plans in everything concerning the work is guaranteed.

CR3.2 The information and support required for the different quality audits of the work is managed. CR3.3 The quality specifications for materials and other technical resources required for the work are verified in accordance with the relevant requirements and standards. CR3.4 The quality technical specifications in the execution of the network assembly are controlled and monitored. CR3.5 The test-pieces and tests corresponding to the specifications of aggregates, concrete, compactments, tightness tests and rupture of pipes and other elements, are carried out according to the technical, safety and standards requirements corresponding.

RP4: Organize and control the execution of the safety plan and the development of the work according to the environmental standards and ordinances.

CR4.1 The professional risks arising from the work are identified and controlled.

CR4.2 The management, deployment, and location of the work's safety and hygiene infrastructures, is developed, monitored and controlled, verifying that it complies with the current regulations. CR4.3 The use, operation and conservation status of the personal safety and protection equipment is monitored, verifying that they are in perfect state of use. CR4.4 The use, operation and conservation status of machinery, vehicles, tools and other technical means used in the work is controlled, checking that they are in perfect state of use. CR4.5 The implementation of the work safety plan is constantly monitored and audited. CR4.6 The emergency plan related to the network assembly process is managed. CR4.7 Environmental risks are assessed and controlled to avoid or reduce them to the minimum possible levels, while respecting the rules of application.

RP5: Support the management of the documentation related to the work processes ensuring compliance with the legal requirements and the application of organizational criteria established by the company.

CR5.1 Work parts, albarans, invoices, certifications control, and other administrative documents are organized and controlled during the network mount process.

CR5.2 The topography documents, data collection for settlement, technical specifications are controlled and collected to constitute the documentary basis of the work. CR5.3 The documentation required for possible inspections is managed. CR5.4 The documentation required in the quality systems is managed.

Professional Context: Production Media:

Buring systems, equipment for movement of materials such as excavators, excavators, cranes, trucks and other types of machinery used in public works, compressors, drilling equipment, installation systems Without a trench, useful for lifting, scaffolding; winch. Measurement tools and tools: flexometer, metric tape, circometro, thick, level, scale, gauge, electrical measurement equipment, marking and detection tools, surveying tools, probes. Hand tools: arcing saw, screwdrivers, fixed keys, pliers, cutouts, limes, drilling machines, riveting machines, electric screwdriver, machines for the machining of materials, screw, curving, joining and welding equipment, equipment for leak detection. Data acquisition and recording unit; TPL, GPS, GIS. Pressure groups, achique pumps, water vats, shutter balls. Safety equipment. Signalling material, detectors, harnesses, personal protective equipment, lifelines and other equipment. Components of the facilities: Tuberies, tanks, pumps, circulators, valves, dilators, suction cups, purgators, hydrants, irrigation hydrants, archets, registration wells.

Products and results:

Mounted water distribution facilities and networks. Installations and sewerage systems mounted.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly plans, parts of work; technical specifications; testing standards; catalogues; manuals of service and use; instructions for assembly and operation; software; UNE standards, safety plans and regulations.

Competition Unit 3: Monitor the commissioning of supply networks and facilities, and water distribution, and sanitation

Level: 3.

Code: UC0840_3.

Professional realizations and realization criteria:

RP1: Organize and control the tests of tightness, pressure, cleaning, disinfection, control of joints and visual inspections and with cameras, prior to the start of the network. CR1.1 The performance of the watertight and pressure tests of the networks and the facilities is organized and controlled according to regulatory procedures and implementing regulations.

CR1.2 The realization of cleaning and disinfection of water networks is organized and controlled according to regulatory procedures and implementing regulations. CR1.3 The visual inspection and with cameras of the water supply and distribution networks are carried out to detect possible anomalies.

RP2: Collaborate on the monitoring and control of the various mechanical, electrical, telematic and telecontrol tests of pressure, flow, chlorine, dilutions, water supply and sanitation facilities, prior to the start up.

CR2.1 The visual inspection of the elements of the water supply and distribution networks and facilities is carried out to detect possible anomalies.

CR2.2 The verification of the elements of the networks and installations is controlled by checking that they meet the specified parameters. CR2.3 The performance of the functional tests of the operators of the networks and facilities is organised and controlled according to regulatory procedures. CR2.4 The performance of the functional tests of the control elements of the networks and facilities, is organised and supervised according to regulatory procedures. CR2.5 The performance of the functional tests of the measurement and auxiliary elements of the networks is organised and controlled according to regulatory procedures.

RP3: Monitor the commissioning of the work according to the quality and safety criteria established by the supplying company.

CR3.1 The commissioning of the network or installation is controlled and monitored by checking that it conforms to the procedures established by the supplying company.

CR3.2 The quality criteria and compliance with the environmental measures necessary for the commissioning of the network or installation are controlled and monitored according to the regulations and the required quality requirements. CR3.3 The safety measures required for the putting into service of the network or installation are monitored and monitored, verifying that they comply with the established rules. CR3.4 The final finish, the resolution of conditions, removal of machinery and infrastructures, cleanings, conditioning, seals and other operations of the work are controlled and supervised, checking that they are adapted to the conditions required.

RP4: Control, monitor, and collect the functional elements documentary file of the networks and installations after the work has been completed.

CR4.1 The documentation related to the processes of commissioning of water supply and sanitation facilities is managed.

CR4.2 The operating and programming manuals of the supply and sanitation network and the plans of the network are controlled, monitored, corrected and collected. CR4.3 Manual documentation or item-specific information is controlled, monitored, and collected. CR4.4 Systems maintenance and control procedures are controlled, monitored, corrected and collected.

Professional Context: Production Media:

Useful and measuring tools: thermometers, manometers, flow meters, meters, turbidimeters, residual chlorine analyzers, probes, flexometer, metric tape, circometro, thick, level, scale, gauge, equipment electrical measurement. Hand tools: equipment for detection of leaks, equipment and tools of cutting, sealing and sealing, equipment for visual inspection, contact probes for measurement of levels, aphorators. Data acquisition and recording unit; TPL, GPS, GIS, communication systems. Pressure groups, achique pumps, water vats, shutter balls, compressors. Safety equipment. Signalling material, safety equipment for electrical manoeuvres, circuit separators, gas detectors. Components of the facilities: Tuberies, tanks, pumps, circulators, valves, dilators, suction cups, purgators, hydrants, irrigation hydrants, archets, registration wells.

Products and results:

Proven and in-service water distribution facilities and networks. Proven and in-service sanitation facilities and networks.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly plans, parts of work; technical specifications; catalogues; service manuals and use; instructions for assembly and operation; software; UNE standards, safety plans and regulations.

Competition Unit 4: Organize the Maintenance of Supply Facilities, and Water Distribution, and Sanitation

Level: 3.

Code: UC0841_3.

Professional realizations and realization criteria:

RP1: Organize and control the different maneuvers in the networks and facilities for the optimization of their operation. CR1.1 The signals, graphs and data obtained using the telematic systems, telecontrol, G.I.S., software, detection elements, user, camera controls and other measurement and management tools, are interpreted for optimize the operation of the network.

CR1.2 The performance of different types of maneuvers in networks is determined, reported and controlled. CR1.3 The manoeuvres, their process of execution and their consequences are controlled and monitored, checking that they are in accordance with the determinations made. CR1.4 The safety measures required in the manoeuvres are controlled and monitored, checking that they conform to the established rules. CR1.5 The results of the maneuver are analyzed to draw conclusions about the optimization of the exploitation of the networks and the personnel involved are informed.

RP2: Collaborate on the development, improvement and implementation of the plans for the maintenance of water and sanitation networks and facilities.

CR2.1 Technical information provided by equipment manufacturers and facilities for water and sanitation networks is used in the development of maintenance programs.

CR2.2 Own maintenance manuals, in accordance with the service application regulations and ordinances, are prepared and kept up to date. CR2.3 The definition of tasks, procedures and methods of intervention and disassembly/assembly, health check ranges, times and the human and material resources necessary for its execution in the time and cost foreseen are contained in the installation maintenance program. CR2.4 Quality control criteria are set for the different stages in which maintenance is organised. CR2.5 The critical points of networks and facilities that pose a higher risk of lack of supply or modification of their normal values are considered in the development of maintenance programmes. CR2.6 The established maintenance programs optimize the own resources, determine the needs of external support and guarantee the fulfillment of the production objectives. CR2.7 The procedures used in preventive and corrective maintenance are regularly updated, incorporating the improvements detected. CR2.8 Continuous improvement of maintenance management plans, testing of new techniques, participation in the process of fiabilization of new products used in networks and facilities, is carried out and supervised in collaboration with the Top-level personnel.

RP3: Organize and monitor processes and procedures for preventive and corrective maintenance of water and sanitation networks and facilities.

CR3.1 The organization and supervision of the maintenance and repair of the networks and facilities is carried out using the documentation received and generated, technical and administrative.

CR3.2 The specifications of the various materials and equipment used in the maintenance of networks are elaborated for the management of their acquisition. CR3.3 The collection and distribution of material stocks, through the process of warehouse management, is organized and controlled under the premises of efficiency, efficiency and maximum quality. CR3.4 The available human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the different types of maintenance, are coordinated and controlled under the premises of efficiency, efficiency and with the highest quality. CR3.5 The process of reviewing deposits, pumps, relief, tonnage and registration wells, valves, control systems and other elements submitted to review campaigns, are organized and controlled with the aim of achieving maintenance is of a preventive type. CR3.6 The corrective measures to be taken when there are deviations in relation to the efficient operation of the network or installation are determined and appropriate instructions are given for their implementation. CR3.7 The monitoring of maintenance is carried out by controlling the quality of execution and the costs, obtaining the necessary control indicators to establish the benchmarks that will profile the most suitable lines of action and solving the Contingencies with maximum efficiency and meeting the programmed objectives. CR3.8 Data obtained from modifications by works or revisions are controlled and collected, in order to maintain up-to-date information systems and databases. CR3.9 Attention to notices and complaints for problems, supply cuts, requests for work permits and other issues arising from the service provided and related directly to services and customers affected by the execution of the maintenance is managed with maximum efficiency and quality.

RP4: Organize and manage the maintenance of water and sanitation networks and installations and apply diagnostic techniques for breakdowns and telematics systems and computer systems of the sector.

CR4.1 The leak detection means and techniques are applied and audited.

CR4.2 The parameters of operation of networks and installations, their values of slogan, graphics, alarm systems and other variables, are controlled and interpreted to achieve the greatest knowledge and maximum efficiency and efficiency in problem solving and in the analysis of performance improvements. CR4.3 The management of the control sheets for the periodic maintenance of the different elements, as well as the elaboration of the historical database are carried out using the geographic information systems. CR4.4 The control and supervision of the various types of maintenance is carried out by means of specialised IT applications. CR4.5 Maintenance management is performed effectively and in the shortest possible time, using the most appropriate communication technologies. CR4.6 The internal states of the pipes are monitored by means of closed circuit television systems, to detect and observe the deficiencies and to apply the means for their resolution.

RP5: Organize and control the application of the standards and measures of risk prevention, safety, health and environmental in the maintenance of water supply and distribution networks and facilities.

CR5.1 The professional risks arising from maintenance intervention are identified and controlled.

CR5.2 The management, deployment, and location of network security and hygiene infrastructures, is developed, monitored and controlled, verifying that it conforms to the current regulations. CR5.3 The use, operation and conservation status of the safety and personal protection equipment used in the maintenance work is monitored, verifying that they are in perfect state of use. CR5.4 The use, operation and conservation status of machinery, vehicles, tools and other equipment used in the work is monitored from the point of view of safety. CR5.5 The implementation of the work safety plan is monitored and audited. CR5.6 The emergency plan related to the network mounting process is managed. CR5.7 Environmental risks are assessed and monitored to avoid or minimize their effects.

RP6: Control and monitor documentation related to the processes of operation and maintenance of networks and facilities for water supply and distribution and sanitation.

CR6.1 Work parties, albarans, invoices, orders, and other administrative documents are organized and controlled within the maintenance process.

CR6.2 Customer demands are recorded, transmitted, and serviced as quickly as possible. CR6.3 The administrative procedures and quality management systems in the maintenance are applied and monitored, verifying that they conform to the established standards. CR6.4 The inventories are reviewed, updated and managed, controlling the information related to the ups, downs and repairs carried out. CR6.5 The maintenance of mobile parks, tools, machinery, communication systems and other equipment is controlled and supervised. CR6.6 The IT systems used in the operation and maintenance of networks are monitored, verifying that their operation is in line with the established parameters.

Professional Context: Production Media:

Burial systems, equipment for movement of materials, scaffolding; winch. Measuring tools: thermometers, gauges, flow meters, flexometer, tape, metric, circometro, thick, level, scale, gauge, electrical measurement equipment. Computer equipment and software. Sada Applications. Data acquisition and recording unit; TPL, GPS, GIS. Programmable automatons and telemanagement systems. Pressure groups, achique pumps, water vats, shutter balls. Safety equipment. Signalling material. Components of the facilities: Tuberies, tanks, pumps, circulators, valves, dilators, suction cups, purgators, hydrants, irrigation mouths, archets, log wells, high-water wells, discharge chambers, siphons, sinks.

Products and results:

Water and sanitation facilities and distribution networks operated and maintained in accordance with the safety and quality requirements that are required.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; maintenance programmes, maintenance procedures, parts of work; specifications Technical specifications; catalogues; service and use manuals; operating manual; computer programs; UNE standards, safety regulations, basic or local regulations on supply and sanitation networks.

Training module 1: Water supply and distribution networks and facilities

Level: 3.

Code: MF0838_3. Associated with the UC: Collaborate in the planning of the execution of works of networks and facilities of water supply and distribution and sanitation. Duration: 150 hours.

Assessment Capabilities and Criteria:

C1: Analyze the operation of water supply and distribution networks to determine their functional characteristics and parameters in order to plan their execution. CE1.1 Describe the general hydraulic operation of a water distribution network and its control systems from the corresponding planes.

CE1.2 List, describe and reason the function performed by the various components that integrate the water distribution networks by establishing their limits and possibilities of use. CE1.3 To describe the requirements of regulations and standards applicable to this type of facilities: water facilities, municipal ordinances, safety regulations. CE1.4 Carry out technical calculations necessary to assess the operating parameters of these installations.

C2: Analyze the operation of the sanitation networks to determine their functional characteristics and parameters in order to plan their execution.

CE2.1 Describe the general hydraulic operation of a sanitation network and its control systems from the corresponding planes.

CE2.2 List, describe and reason the function performed by the different components that integrate the sanitation networks by establishing their limits and possibilities of use. CE2.3 Describe the requirements of the regulations and standards applicable to this type of facilities: rules for the facilities for the pluvial and fecal sanitation, municipal ordinances, safety regulations. CE2.4 Carry out technical calculations necessary to assess the operating parameters of these installations.

C3: Interpret projects of works of water distribution and sanitation networks to obtain the necessary information prior to the planning of the same.

CE3.1 Describe the different documents that make up a project, technical memory, or plan of assembly of a water distribution and sanitation network in order to plan its execution.

CE3.2 Represent, manually or with assisted design assistance, principle schemes, sketches and isometric diagrams of a water and sanitation distribution network and its components to facilitate its assembly. CE3.3 Determine the parameters of the installation from the actions in water distribution and sanitation network reforms to which new tranches or modifications of the existing ones are incorporated from the respective projects or technical memories. CE3.4 In a practical scenario or actual installation of a water and sanitation distribution network, characterized by the drawings and the corresponding technical documentation:

− Identify the different components of the network and specify the characteristics of each of the elements that make up the network: pipes, pressure groups, achique pumps, water vats, shutter balls, tanks, Flow meters, valves, suction cups, sinks, registers, siphons and regulatory elements.

− Razon the hydraulic operation of the installation, describing the function, structure and composition of the different parts that configure it, calculating the operating parameters. − To make supplementary schemes and plans derived from the need for greater detail or the repose of the work. − Design the signaling needs of the work area. − Relate the composition and characteristics of the projected network or, as appropriate, modified, with the regulatory requirements that apply to it.

C4: Develop work plans for the assembly of water and sanitation distribution networks according to the corresponding project and established procedures.

CE4.1 Establish the sequence and general organization of the work, optimizing the process in terms of security, method and time.

CE4.2 Make the necessary schedules and integrate the human resource needs that are required in each of the phases. CE4.3 Define the functions of the different persons involved in the assembly of a certain water and sanitation network in which there is civil work, assembly of pipes and auxiliary elements, and putting into service. CE4.4 In one or more practical cases of projects for the assembly of water and sanitation distribution networks, which contain several sectors with pipes of different diameter and different elements:

− Design the sequence and phases of the work, analyzing different possibilities.

− Establish the needs of the human resources required in the different phases and their functions. − Use software to support the planning of network projects.

C5: Adapt the work plans that are necessary when the repose of the work of a water or sanitation network does not conform to the corresponding project, in different scenarios.

CE5.1 Identify and evaluate the adaptation of the installation of the network to the project, monitoring that the location, marking and connection of the pipes, valves, archets, siphons, control boxes and other necessary elements of the network are in line with the project specifications.

CE5.2 Make symbolic schemes, detail sketches and complementary plans to the project that are necessary in the repose process. CE5.3 To propose the work and to determine the services that may be affected and its scope, analyzing in detail, among others, the consequences for the rolling circulation, the pedestrian accesses, the security in the supply of water, gas, electricity and telecommunications, managing the necessary measures to ensure that the conditions are minimal.

C6: Determine the supply needs of resources needed from the interpretation of projects of works of water distribution and sanitation networks, and fill in the documentation and initial permissions of the in the framework of its powers.

CE6.1 Identify sourcing needs from the project by planning supplies in the framework of the system used for stock management.

CE6.2 Define and characterize the documentation related to the official permissions to be able to perform the work. CE6.3 To complete and process the required technical and administrative documents for obtaining permits.

C7: Define prevention and safety measures regarding the assembly of water and sanitation distribution networks, analyzing the current regulations.

CE7.1 Identify and evaluate the professional risks present in the assembly of water distribution and sanitation networks.

CE7.2 Collaborate on the design of safety manuals, proposing improvements and preventive and corrective measures in the face of the risks identified. CE7.3 technically justify the prevention and safety measures in the assembly of nets according to the typology of risks. CE7.4 Design the signalling requirements of the work area according to the site. CE7.5 To describe the safety standards related to the assembly of water distribution and sanitation networks and to interpret the protocols of action in the face of possible emergencies arising during the work. CR7.6 Design the training required by the assembly staff in the field of risk prevention and emergencies. CR7.7 Raise the safety plan of a water sanitation or water supply site, determining the type and level of risks associated with it, the system of signalling of the work to be used and the description of the individual protection equipment necessary.

Capabilities whose acquisition must be completed in a real working environment: C5 with respect to CE5.1 and CE5.3. Other capabilities:

Take responsibility for the work you develop, meeting the objectives and deadlines set.

Participate and actively collaborate on the work team. Ensure safety in the work.

Contents:

1. Water supply and distribution systems. Integral water cycle. Efficient management and water saving.

Fluid physics applied to water supply and distribution networks. Types of water supply and supply networks. Classification. Supply design flows. Collection systems, pumps and tanks. Basic calculations. Configuration of the installation. Constituent parts and parts. Conductions. Methods of calculation. Irrigation facilities and fire facilities. Basic calculations. Operation and specifications of pumps, valves, suction cups, elements of regulation. Special types of valves: integrated, multivalvulas, altimeters, regulators and other special types of gate valves and automatic valves. Implementing regulations: Basic standards for Water Facilities, municipal ordinances, safety regulations.

2. Sanitation systems.

The water cycle and its sanitation. Local networks.

Types of sanitation networks. Classification. Wastewater treatment. Drainage of stormwater. Evacuation systems and sewerage systems. Discharges to collectors. Basic calculations. Sanitation pipelines. Methods of calculation. Configuration of the installation. Constituent parts and parts. Characteristics and specifications of equipment and components: pumps, valves, pipes, sinks, collectors, archets and registration wells, siphons and relief. Procedures and operations for repose of installations. Supplementary calculations. Implementing regulations: Basic standards for sanitation facilities, municipal ordinances, safety regulations.

3. Projects for water supply and sanitation facilities.

Concept and types of projects.

Memory, plans, budget, and specifications. Development. Procedures and operations for repose of installations. Supplementary calculations. Provisioning program. Administrative work permits. Situation plans. Drawings of detail and set. Symbolic planes, schemas, and logical diagrams. Diagrams, flowcharts, and chronograms. Visualization and interpretation of digitized planes. Basic operations with graphic files. Safety plan.

4. Organization and planning of water supply and sanitation works.

Organization of the execution of a work. Working methods.

Documentation of the materials. Analysis of machinery and equipment used in works. Conditions for existing buildings and services. Planning of works. Planning systems. Control of the schedule. Control systems. Computer-assisted planning and control.

Training context parameters: Spaces and installations:

-Multi-purpose of a minimum of 2 m2 per pupil.

-Water and gas workshop 150 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the planning of the execution of works of networks and facilities of water supply and distribution, which will be accredited by one of the following forms:-Training Technical Engineer or other top-level academic in this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Development of works of water supply and distribution networks and facilities

Level: 3.

Code: MF0839_3. Associated with the UC: Control the development of works of networks and facilities for the supply and distribution of water and sanitation. Duration: 150 hours.

Assessment Capabilities and Criteria:

C1: Analyze the planning of the assembly of a supply and sanitation network and, in a practical scenario, develop detailed work programmes for each phase of implementation. CE1.1 To interpret the documentation with the planning and the program of assembly of the work, determining the different phases.

CE1.2 Define the critical points in the coordination of the work of the different guilds. CE1.3 Detail the work plan and schedule of the civil work. CE1.4 Perform the work plan and schedule of the laying and connection of ducts and placement of valves and other elements of the network. CE1.5 Carry out the work plan and schedule of the finishing, filling, compaction, cleaning and disinfection phases.

C2: To control, in different scenarios, the phases of execution of a work of assembly of water distribution and sanitation networks, making the corresponding adaptations from the possible contingencies that may originate.

CE2.1 Oversee that excavation, protection of slopes, buries, heals, implantation of necessary achiques, preparation and levelling of sand bed and other operations in ditches are carried out with the specifications of the project.

CE2.2 Check that the preparation of the points of placement of the heads of the tubes, the points of implantation of the knots and the establishment of the anchoring massifs are carried out according to the specifications of the project. CE2.3 Monitor the execution of the water network pipe laying. CE2.4 Check the execution of the laying of pipes in the sanitation network. CE2.5 Verify that the execution of the assembly and connection of pipes is carried out according to the specifications of quality and safety required. CE2.6 Control that the location and position of the valves, suction cups, regulation elements and fittings installed is in line with the project specifications. CE2.7 To carry out symbolic schemes, drawings of detail and plans complementary to the project of work that are necessary to make adaptations to the appearance of possible contingencies.

C3: Define the requirements and factors that influence the quality of the assembly of a supply and sanitation network.

CE3.1 Define the criteria of constructive quality in the realization of ditches and in the support and placement of pipes, valuing the determining factors.

CE3.2 Define the quality criteria in the connection of channelings and registration systems, valuing the determining factors. CE3.3 Define the quality criteria in the placement of elements of actuation, control and measurement, valuing the determining factors. CE3.4 Define quality criteria in network automation, assessing the determining factors. CE3.5 Define the quality criteria in the filling and compaction of ditches and general of the work. CE3.6 To analyze and develop tests and tests on the site for the quality control of materials and building elements of the networks.

C4: Identify and fill in the technical and administrative documentation related to the control of the execution of the work.

CE4.1 Describe the different documents that make up a project, technical memory or plan of assembly of a water distribution and sanitation network in order to organize the assembly.

CE4.2 Documenting the supply needs of materials, equipment and machinery necessary for the realization of each of the parts of a work. CE4.3 To interpret the documentation related to the deadlines, place of delivery and conditions of supply of the materials and equipment required for the execution of the work. CE4.4 To fill in the administrative documentation related to the work, if any. CE4.5 Use software for the monitoring and control of the work.

C5: Establish the measures of prevention, safety and environmental protection necessary in the execution of works of water distribution and sanitation networks from the current regulations. CE5.1 Identify and evaluate the most frequent occupational risks present in the works with land movements and propose corrective measures for their elimination or control.

CE5.2 Identify and evaluate specific professional risks related to the execution of wells and ditches and propose corrective measures for their elimination or control. CE5.3 Identify and evaluate specific occupational risks related to jobs in blind, poorly ventilated or septic wells and propose corrective measures for their elimination or control. CE5.4 Identify and evaluate the most frequent professional risks present in the management of portable tools and equipment used in the works and propose corrective measures for their elimination or control. CE5.5 Identify and evaluate the professional risks related to the use of pressure groups and propose corrective measures for their elimination or control. CE5.6 Identify and evaluate the professional risks related to the use of lifting systems and other techniques of displacement of loads employed in the works and propose corrective measures for their elimination or control. CE5.7 Identify the environmental protection requirements derived from the actions of assembly of water distribution and sanitation networks. CE5.8 Describe the signaling requirements of the work areas and the procedures for their preparation, determining the specific occupational risks involved and their corrective actions. CE5.9 Determine the protocols of action, including first aid, in the face of possible emergencies arising during the assembly of water distribution and sanitation networks.

Capabilities whose acquisition must be completed in a real work environment: Other capabilities:

Take responsibility for the work you develop, meeting the objectives and deadlines set.

Be responsible for the execution of the work with the required quality. Communicate effectively with the right people at every moment, respecting the channels established by the organization. Participate and actively collaborate in the work team. Ensure safety in the work.

Contents:

1. Execution of works of water supply and distribution. Civil work in water supply and distribution.

Graphic elements of representation. Topography and marking. Rethinking of the civil work in water supply and distribution. Water catchment. Quality and treatment of water. Building materials and criteria for supply pipelines. Elements of a water distribution network: general purpose valves, check valves, reducing valves, reels, suction cups, hydrants and irrigation hydrants. Anchorages and archets. Water supply connections. Quality in the assembly. Control of the computer assembly.

2. Execution of works of sanitation.

Civil work in sanitation networks and facilities.

Graphic elements of representation. Topography and marking. Rethinking of the civil work in sanitation. Sanitation. Types of sanitation networks and criteria for implementation. Discharges to collectors. Construction materials and criteria for sanitation pipelines. Specific elements of a sanitation network: wells, highlighted wells, discharge chambers, gates, siphons and sinks. Sanitation and sanitation. Quality in the assembly. Control of the computer assembly.

3. Automation and control of water supply and sanitation networks.

Regulation and automation of hydraulic systems.

Measurement and instrumentation. Local control of hydraulic systems. Global control of water distribution systems. Programmable automatons and telemanagement systems. Geographical information systems.

4. Security systems in the work.

General security measures.

Managing security and risk control in civil works with land movement. Management of safety and risk control in the assembly of water and sanitation networks. Signalling systems. Emergencies.

Training context parameters: Spaces and installations:

-Multi-purpose of a minimum of 2 m2 per pupil.

-Water and gas workshop 150 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the control of the development of works of networks and facilities for the supply and distribution of water and sanitation, which will be accredited by one of the following forms:-Training Technical Engineer or other top-level academic in this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Water and water network commissioning systems

Level: 3.

Code: MF0840_3. Associated with the UC: Oversee the putting into service of water supply and distribution networks and facilities. Duration: 60 hours.

Assessment Capabilities and Criteria:

C1: Describe and organize the checks and tests to be carried out in order to ensure the functionality of the work of water distribution and sanitation prior to putting them into service. CE1.1 Relate the visual checks and functional tests that require the works of water sanitation and distribution.

CE1.2 Justify and define the necessary proof of tightness prior to the putting into service of the network, establishing the relations with the implementing regulations. CE1.3 Sequencing and characterizing the tests of tightness and pressure, detailing the procedures and equipment necessary to perform them. CE1.4 Detail the cleaning and disinfection requirements of the installation, as well as the factors that affect, reasoning the necessary sanitization measures, prior to putting into service.

C2: Describe and sequence the procedures to be carried out for the commissioning of a water distribution and sanitation network in accordance with the requirements of quality and safety.

CE2.1 In one or more practical cases of a water supply and distribution network composed of a pumping system, tanks, pipelines with different materials, different types of valves and a system of telecontrol devices:-Define, sequence and check the visual inspections to be carried out, including those made by means of TV.

-Describe the procedures and monitor the necessary pressure tests and the organization of the procedures, detailing the functions and operations of each person involved. -Establish and apply the criteria that guarantee the satisfactory level of each of the tests. -List and classify the necessary equipment and tools for each test.

CE2.2 In one or more practical cases of a horizontal drainage network of stormwater and fecal water, composed of wells and pipelines with different materials:

-Define, sequence, and check the visual inspections to be performed, including those made using TV.

-Describe the procedures and monitor the necessary pressure tests and the organization of the procedures, detailing the functions and operations of each person involved. -Establish and apply the criteria that guarantee the satisfactory level of each of the tests. -List and classify the necessary equipment and tools for each test.

CE2.3 Define the different safety risks in conducting tests for the commissioning of a water distribution and sanitation network, and propose preventive measures.

C3: Analyze and organize the documentary file needed for the commissioning and delivery of the work. CE3.1 To describe the different technical and administrative documents needed in the implementation of the water supply or sanitation work.

CE3.2 Describe the procedures and procedures of management to be developed for the putting into service and delivery of the work. CE3.3 To analyze the manuals of operation, operation and maintenance, incorporating, if necessary, the modifications derived from the contingencies arising during the work or the putting into service of it. CE3.4 Prepare the complete dossier of the work of sanitation or water supply in the format and support established. Capabilities whose acquisition must be completed in a real working environment: C2 with respect to CE2.1 and CE2.2.

Other capabilities:

Coordinate the work team and ensure the safety of people in putting into service.

To be responsible for the rigor and systematization of the different tests. To have an initiative to give appropriate response to the possible contingency arising in the conduct of tests.

Contents:

1. Commissioning of water supply and sanitation works. Hydraulic operations prior to the putting into service of networks. Pressure tests.

Mechanical resistance of pipes. Basic calculations. Battering ram. Testing, testing and commissioning of technical elements, equipment and instruments. Protocols for action and the implementation of works for the modification of networks in operation.

2. Documentation and reception of works.

Receipt of supply works.

Receipt of sanitation works. Documents associated with the evidence. Operating and maintenance manuals. Settlement plans. Software and media.

3. Safety and hygiene in the putting into service of works.

Determination of risks in the commissioning of water networks. Prevention.

Determination of risks in the commissioning of sewerage networks. Prevention. Cleaning and disinfection. Potability. Chemical and biological parameters. Missions, discharges and odours. Emergency management. Coordination and first aid. Systems for environmental protection in testing. Reporting.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-Water and gas workshop 150 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the supervision of the placing in service of water supply and distribution networks and facilities, which will be accredited by one of the following forms:-Training Technical Engineer or other top-level academic in this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 4: Organization of Water Distribution and Sanitation Network Maintenance

Level: 3.

Code: MF0841_3. Associated with the UC: Organize the maintenance of facilities for water supply and distribution and sanitation. Duration: 120 hours.

Assessment Capabilities and Criteria:

C1: Analyze the overall operation of the water and sanitation distribution networks to establish the maintenance plan. CE1.1 Describe the operation of a water supply and distribution network from the corresponding technical documentation, identifying its parts, equipment and components.

CE1.2 Describe the operation of a network of water sanitation and a network of stormwater from the corresponding technical documentation, identifying its parts, equipment and components. CE1.3 Point out the elements of a network on which it can be operated manually or automatically and the consequences of its manipulation. CE1.4 Identify in a network the different elements on which preventive maintenance must be carried out from a particular maintenance program. CE1.5 Determine the critical points in which breakdowns can occur with important consequences for users, the environment and the quality of the water supply or sanitation service.

C2: Make proposals for the organization of preventive and corrective maintenance in water supply or sanitation networks.

CE2.1 Interpret the technical information of equipment manufacturers and facilities to transfer the necessary data to the maintenance program of the supply or sanitation network.

CE2.2 Analyze, update and improve maintenance programs, ensuring that it contains the definition of tasks, procedures and methods of intervention, health check ranges, time and resources required. CE2.3 Define the quality criteria in the most frequent and important interventions of preventive or corrective maintenance. CE2.4 To analyze different models of organization of preventive and corrective maintenance in water supply networks, assessing the advantages and disadvantages from the points of view of the quality, cost and safety of the service. CE2.5 To analyze different models of organization of preventive and corrective maintenance in sanitation networks, valuing the advantages and disadvantages from the points of view of the quality, cost and safety of the service. CE2.6 Establish the technical and economic criteria for the maintenance, rehabilitation and renovation of networks. CE2.7 Razonar the operation of the management of the acquisition of spare parts and their relationship with the organization of the warehouse, determining the criteria for the acquisition of stocks. CE2.8 Raise the organization of preventive maintenance by determining periods, operations, and review times for each of the critical elements or points in a water supply network with deposits, pumps, relief, archetypes, and log wells, valves, control systems, and other elements. CE2.9 Raise the organization of preventive maintenance by determining periods, operations, and times of review for each of the critical elements or points in a sanitation network with deposits, siphons, archets and log wells, gates, control systems and other elements. CE2.10 To analyse the organisation and procedures of the maintenance system from the point of view of risk prevention, safety and hygiene. CE2.11 In several practical cases with interventions related to preventive and corrective maintenance in supply and sanitation networks, and which involve risks of different types:

-Identify and catalog professional risks.

-Planting the organization of the signaling systems in the maintenance work. -Determine environmental risks and their control. -To describe and assess the emergency plan, determining the emergency situations, the phases, the communication systems, the personnel, and the acting entities. -To develop, at the level of, the documentation and reports required by a specific contingency.

C3: Analyze and apply diagnostic techniques for breakdowns and systems of automation and improvement of the performance of water supply and sanitation facilities.

CE3.1 Describe the different media and leak detection techniques in networks, applying them to practical situations.

CE3.2 Determine objectives and methods in conducting water distribution network audits. CE3.3 To interpret the instruments and systems of registry of variables of the network, valuing the correlation between the values of the slogan and the real ones. CE3.4 Fill in the control sheets for the maintenance and the historical data using the geographic information systems. CE3.5 Organize and analyze the databases of water and sanitation networks for the control of the performance of the facilities. CE3.6 Interpret several practical cases of historical breakdowns of a water supply or sanitation network and propose improvements in the organization of preventive maintenance to optimize the service and the maintenance work itself. CE3.7 Use existing telematic and telecommunication systems in a facility or required in the procedures established in the management of maintenance.

C4: Describe the processes and fill in the documentation related to the operation and maintenance of water supply and sanitation networks and facilities.

CE4.1 Describe and organize work items, albarans, invoices, orders, inventories, and other administrative documents associated with maintenance.

CE4.2 Describe the process of customer demand attention and develop integrated management systems for complaints, breakdowns and actions in water distribution and sanitation. CE4.3 Use computer applications of general purpose and of type Scada, in the processes of operation and maintenance of networks. CE4.4 Fill in the documentation associated with quality management systems in the company.

Capabilities whose acquisition must be completed in a real working environment: C3 with respect to CE3.1. Other capabilities:

Coordinate the work team and ensure the safety of people in maintenance.

Take responsibility for quality in maintenance actions. Have good deal with the client in the process of handling complaints and repair of breakdowns. Act with security and control in the face of possible contingencies arising from the maintenance.

Contents:

1. Programmes for the maintenance of water supply and sanitation networks. Structure of maintenance. Function, objectives, types.

Outsourcing maintenance services. Organisation of maintenance. Inspections. Economic maintenance. Warehouse and maintenance material. Supplies. Organization and management of the maintenance warehouse. Approval of suppliers. Technical specifications for spare parts.

2. Management of maintenance in water supply and sanitation facilities.

Planning and management of preventive maintenance.

Critical water network maintenance points. Procedures for intervention. Security. Critical maintenance points in sanitation networks. Procedures for intervention. Security. Quality management systems and procedures. Integrated management of breakdowns, complaints and actions. Prevention of risks and safety in maintenance. Maintenance management software.

3. Technological systems for improving the performance of hydraulic installations.

Leaks in water supply and distribution systems. Causes and consequences.

Leaks in water and stormwater sanitation networks. Causes and consequences. Leak detection and assessment techniques. Logging and creating databases with parameters. Analysis. Closed circuit TV systems in the conduct inspection. Geographical information systems. Telecontrol and telemedide systems.

Training context parameters: Spaces and installations:

-Multi-purpose of a minimum of 2 m2 per pupil.

-Water and gas workshop 150 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the organisation of the maintenance of water supply and distribution facilities, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other top-level engineers related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLXIII

Professional qualification: Organization and projects of solar photovoltaic installations

Professional Family: Energy and Water.

Level: 3. Code: ENA263_3.

General competition:

Promote facilities, develop projects and manage the assembly and maintenance of isolated and networked solar photovoltaic installations, applying the techniques and procedures required in each case, optimizing the resources, with the required quality, complying with the regulations in force and in conditions of safety.

Competition Units:

UC0842_3: Determine the feasibility of solar installations projects.

UC0843_3: Develop photovoltaic solar installations projects. UC0844_3: Organize and control the assembly of photovoltaic solar installations. UC0845_3: Organize and control the maintenance of photovoltaic solar installations.

Professional environment: Professional scope:

Develops its professional activity, both self-employed, in small and medium-sized enterprises, public or private, dedicated to the promotion, assembly, operation and maintenance of solar installations photovoltaic for the production of electrical energy, connected to a network or isolated, with or without a support system.

Productive Sectors:

It is located in the energy sector, subsector of renewable energies, in the productive activities in which the assembly, the exploitation and the maintenance of photovoltaic installations for the production of electric power is carried out.

Relevant Occupations and Jobs:

Promoter of solar installations.

Solar Photovoltaic Installations Project. Responsible for assembling photovoltaic solar installations. Responsible for the maintenance of photovoltaic solar installations. Responsible for the operation and maintenance of small photovoltaic solar power plants.

Associated Training (570 hours): Training Modules:

MF0842_3: Solar installations feasibility studies (120 hours).

MF0843_3: Solar PV installations projects (240 hours). MF0844_3: Organization and control of the assembly of photovoltaic solar installations (120 hours). MF0845_3: Organisation and control of the maintenance of photovoltaic solar installations (90 hours).

Competition Unit 1: Determine the feasibility of solar installations projects

Level: 3.

Code: UC0842_3.

Professional Achievements and Realization Criteria: RP1: Assess the user's energy needs and interests and classify them for decision making on the type and characteristics of the energy supply. appropriate.

CR1.1 The user's power needs are classified according to applications, receiver specifications, and the characteristics of the energy demand to be met.

CR1.2 The electrical energy needs are quantitatively determined and their basic parameters are set from the type of receivers. CR1.3 Thermal energy needs are determined quantitatively and their basic parameters are set, especially the annual seasonal average yields of equipment and facilities depending on their maintenance status. CR1.4 The seasonal use variable, utilization times, working temperatures, and concurrency factor are determined and represented from recognized sources of information and from the user's own data. CR1.5 The formalisation of a user's diagnosis and energy needs is carried out by determining the different supply possibilities, the overall economic costs and the depreciation of the facility.

RP2: Determine the solar potential of an area for decision making on the possibilities of application of solar energy.

CR2.1 The parameters of global solar radiation, average daytime ambient temperature and cold water temperature of the network are obtained from official, or sufficiently reliable, statistical data collected in tables.

CR2.2 The correlation between data is performed when the required information is not directly given by available tables or statistics. CR2.3 The collaboration in the application of models for the determination of direct, diffuse and global solar radiation is carried out using the necessary software. CR2.4 The measurement and recording of solar data is carried out by using the pyrometer, pirheliometer, "datalogger", automatic stations and other systems, in the required quality and safety conditions. CR2.5 The use of solar energy is justified on the basis of the assessment of available solar potential.

RP3: Formalize proposals of solar installations responding to the energy needs and interests of the customers.

CR3.1 The study of the components of the solar installation required is done using the technical information provided by the solar equipment manufacturers, making the necessary calculations and adapting to the user needs.

CR3.2 The study of the ideal location, number and size of sensors or panels is carried out according to the construction in which they are to be located, as well as the conditions of shadows, obstacles and other factors determining the use of solar energy. CR3.3 The study of the visual impact of the installation is carried out, guaranteeing that it is the minimum possible according to the interests of the user, the normative requirements and the possibilities of location. CR3.4 The proposal is concrete and formalised by incorporating the technical characteristics, general schemes, complementary sketches and guidelines on regulatory compliance, possible grants, amortisation and funding. CR3.5 The information and advice is offered to the user, responding to the different issues that he can raise in terms of technical characteristics, applicable regulations, economic viability, maintenance requirement, reliability, guarantee supply and other aspects related to the solar installation.

Professional Context: Production Media:

Computer. Simulation software. Compass. GPS, tape metric. Piranometer and pirheliometer. Datalogger and automatic stations.

Products and results:

Technical and economic studies. Budgets. Customer advice. Processing of permits and grants.

Information used or generated:

Geographical and Catastral Maps. Technical catalogues. Tables, charts, maps and statistical series on solar parameters. Fuel prices. Regulations and implementing rules. Rules for grants. Forms, applications for grants.

Competition Unit 2: Develop PV Solar Facility Projects

Level: 3. Code: UC843_3.

Professional realizations and realization criteria:

RP1: Define the characteristics of the photovoltaic solar installation, applying calculation procedures and established standards, to select the equipment and elements required with its specifications. CR1.1 The selected elements correspond to the industry standard technology and the approval standards.

CR1.2 The characteristics of the elements, equipment, components and materials are determined by technical calculations based on objective and reliable data, using manual, tables and computerized calculation programs. CR1.3 The calculations performed have the required accuracy and are checked and contrasted with those of other optimal operating facilities. CR1.4 The conditions of compatibility between the different elements of the photovoltaic solar installation and other elements of auxiliary and receiving facilities, ensures the performance, reliability and productive capacity of the installation as a whole. CR1.5 The choice of components is made taking into account the guarantees of interchangeability, supply and cost.

RP2: Make memories, reports, and supporting manuals for solar PV installations that are required by official regulatory agencies.

CR2.1 The introduction and justification of the solar photovoltaic installation project is carried out on the basis of technological criteria for energy supply, normative criteria and strategic criteria, among others.

CR2.2 The overall technical description of the installation is performed through its functional analysis. CR2.3 The technical justification for the sizing and specifications of the different parts and the different components is performed using numerical calculations when necessary. CR2.4 The security and protection systems designed, the employees and other critical points of the installation are analyzed in the report or memory. CR2.5 The operation and maintenance manual of the facility is written on the basis of the type of building and the different support systems in place, establishing the activities and operations of surveillance and maintenance according to the required model Regulation. CR2.6 The formal document for the report or memory is written using general purpose computer applications.

RP3: Elaborate plans of general layout and detail of photovoltaic solar installations, based on the technical specifications of established design, achieving the required quality and finishing levels.

CR3.1 The information necessary for the lifting of the building plans, which is required for the development of the project, is obtained directly from the building or, where appropriate, the building project.

CR3.2 The most unique points and accidents existing in the building and its structures, which affect the solar installation, are systematically collected. CR3.3 The sketches meet the requirements of proportion and adequate graphic expression for their unequivocal interpretation. CR3.4 Installation site plans are implemented by applying the regulations and optimizing the drawing process by incorporating the drawings and/or technical specifications of the standardized elements. CR3.5 The representation of the different parts and circuits of the installations is carried out with the symbology and standard conventionalisms of application. CR3.6 The location of the panels and equipment and the layout, dimensions and technical specifications of the installation are determined taking into account the calculations made in the memory and meeting the requirements of operation and safety as other regulations and enforcement ordinances. CR3.7 The structural strength and waterproofing of the building are considered in the constructive solutions adopted in the assembly and maintenance of the installation. CR3.8 Material lists include code and specifications of project elements. CR3.9 The formal document with the plans is elaborated by computer applications of assisted design.

RP4: Develop budgets of solar photovoltaic installations based on the designs made and detailing the different items.

CR4.1 Material lists include the commercial reference, code, and technical specifications of the project elements.

CR4.2 The unit price and the total of each material and equipment are detailed, obtaining the total price of each item and the set of the installation. CR4.3 The costs incurred by the workforce are quantified for each of the professionals involved in the installation of the photovoltaic solar installation. CR4.4 The general expenses, industrial benefit and value added tax apply to the different items and the percentages legally established. CR4.5 The project and the budget derived from the installation are detailed and defined in such a way that the unforeseen expenses of the facility tend not to exceed 5% of the total budget.

RP5: Develop the safety and health plan in the installation of the solar photovoltaic installation, using the project documentation and ensuring compliance with the regulations.

CR5.1 The risks of falls, in the same or different level, entrapments and falls of objects are identified and assessed their importance.

CR5.2 The thermal risks originated in the solar installation are identified and evaluated its importance. CR5.3 The electrical risks associated with external circuits, high temperature and other extreme conditions are identified. CR5.4 The forecast and planning of the emergency plan is integrated into the documentation of the work. CR5.5 The safety plan of the work is formalized, identifying the different occupational risks and proposing the corrective measures for its elimination, reasonable reduction and control. CR5.6 Environmental conditions are contrasted and the criteria for action are set for minimisation.

RP6: Perform the administrative procedures required to obtain the approval of the solar photovoltaic installation and to access the possible grants.

CR6.1 The compliance with the technical and administrative regulations of the installation is preliminarily assured to the completion of the authorization procedures before the corresponding official bodies.

CR6.2 The required technical and administrative documentation for obtaining the installation permits is completed, organized and processed. CR6.3 Compliance with administrative and other requirements for access to existing grants for this type of facility is preliminarily assured of the completion of the application procedures to the agencies. officials. CR6.4 The technical and administrative documentation required for the application of the installation grants is completed, organized and processed. CR6.5 The monitoring of the administrative processes related to the authorisation and permissions to perform the installation and related to the grant application is carried out, avoiding the stoppage of files for reasons attributable to the installer.

Professional Context: Production Media:

Metro and other devices for distance measurement. Compass, GPS. General purpose computer equipment and applications. Assisted design teams. Plot plotter. Printers. Producers of plans and documentation. Drawing instruments. Computer software for calculation and simulation.

Products and results:

Croquis of installations and their elements. Memory. Joint plans. Drawings of detail. Lists of materials, equipment and standard elements. Budget. Safety plan. Manuals for instructions for the use, operation and maintenance of photovoltaic solar installations.

Information used or generated:

Building plans. Maps. Regulations and implementing technical standards. Regulations on urban planning and construction regulations. Technical catalogues of materials and products. Price lists. Work orders, parts. Forms, applications for grants.

Competition Unit 3: Organize and control the assembly of photovoltaic solar installations

Level: 3.

Code: UC0844_3.

Professional achievements and performance criteria: RP1: Interpreting the project or technical memory of the installation of a solar photovoltaic installation, to proceed with the planning of its execution and the definition of the phases -work. CR1.1 The project or plan memory is parsed or interpreted in the planning process.

CR1.2 The topographical and site characteristics of the projected installation are interpreted from the drawings. CR1.3 The functional and auxiliary equipment characteristics of the projected solar installation are interpreted from the information contained in the project. CR1.4 The elements related to the organization and control of the execution are interpreted from the documentation of the project or plan of the work. CR1.5 The sequencing and general organization of the assembly is established from the project, carrying out a work plan in which the process is optimized in terms of security, method and time. CR1.6 The schedules required for each of the mounting phases are performed in such a way as to ensure the coordination and chaining of the different parts of the installation. CR1.7 The provisioning plan is carried out by coordinating the assembly plan with the possibilities of supply and storage and guaranteeing the supply at the appropriate time. CR1.8 The preliminary organization of the human resources and necessary means is established by defining the functions of each operator or guild and its correlation with the technical means programmed in each phase. CR1.9 The software used in the planning of photovoltaic solar installations projects are used to sequence and organize the execution of the work.

RP2: Organize and control the phase of reimagining, planning and assembly of photovoltaic solar installation structures, according to the established schedule, making the corresponding adaptations from the possible contingencies that may arise.

CR2.1 The repose of the work is organized and developed contrasting the data of the project on the ground and monitoring the general marking of the installation and, if necessary, the necessary modifications.

CR2.2 The installation mount schedule is interpreted and used to raise the organization of the job on each of the parts of the installation. CR2.3 The work of the different people and guilds involved in the work is coordinated by ensuring that the objectives are met according to criteria of effectiveness, efficiency, quality and safety. CR2.4 The information necessary to mount the photovoltaic solar installations is transmitted and communicated to the workers in a clear way, ensuring that the instructions given are sufficient and precise, avoiding errors in the interpretation and allowing the operators to prepare the materials, as well as to carry out the works with efficiency, safety and quality. CR2.5 The displacement of panels, resistant structures, equipment and other necessary materials is organized and monitored according to the specifications of the project. CR2.6 The placement of resistant structures is organized and supervised according to the project specifications, especially guarding the waterproofing of the building.

RP3: Organize and control the different phases of the solar photovoltaic installation, according to the established schedule, making the corresponding adaptations based on the possible contingencies that may be possible originate.

CR3.1 The placement of panels, systems for tracking and laying the pipes and conductors is organized and monitored according to the specifications of the project.

CR3.2 The assembly of storage/storage systems is monitored by ensuring fidelity to the project and the quality in its execution. CR3.3 The assembly of conventional generators, small wind power systems and other support systems for photovoltaic installations is monitored by ensuring fidelity to the project and the quality of its execution. CR3.4 The assembly and connection of the electrical installation and the control devices are organized and monitored, assuring the fidelity to the project and the quality in its execution. CR3.5 The protection against corrosion, oxidation and mechanical impacts of the panels and elements are monitored according to the project specifications.

RP4: Organize and control the sourcing and supply of materials to the work according to established procedures in the company and ensuring compliance with the implementing regulations.

CR4.1 The selection of the necessary equipment, tools and other technical resources is monitored in each of the phases of the solar photovoltaic installation.

CR4.2 The supply of the various materials with respect to their delivery times, supply conditions, storage and distribution management, coordinates, controls and monitors in accordance with the specifications and rules stipulated. CR4.3 The quality specifications for materials and other technical resources required for the installation are verified in accordance with the relevant requirements and standards. CR4.4 The technical specifications of quality in the execution of the installation of the installation are controlled and monitored, checking that they conform to the established standards. CR4.5 The displacement and location of the materials and equipment are managed according to the logistics of the project of the work, with the means of transport and elevation required, and in conditions of safety. CR4.6 The tools, machinery and auxiliary media are organized and maintained for execution with maximum safety and performance.

RP5: Organize and control the safety and performance tests and commissioning of solar photovoltaic installations, adjusting equipment and elements of regulation and control, and ensuring the conditions of established operation.

CR5.1 The test plan for the commissioning of the solar photovoltaic installation is organized and supervised, ensuring the performance of the regulatory and operational safety tests required by the installation and coordinating the procedures to be followed and their sequence.

CR5.2 All tests performed on the premises comply with the regulatory requirements ensuring that the values obtained are in accordance with those required by the implementing rules. CR5.3 The adjustment of the security, protection and operating control elements of the system is coordinated and monitored, ensuring that it is performed according to the specified and the requirements of the process. CR5.4 Emergency and alarm systems are monitored by verifying that they respond to situations of established contingencies and in conditions of effectiveness. CR5.5 The operation and maintenance manuals are monitored and provided to the user.

RP6: Organize and control the execution of the safety and health plan in the assembly operations of photovoltaic solar installations, guaranteeing the integrity of the people, the media and their surroundings.

CR6.1 The security plan for the installation of the solar photovoltaic installation is interpreted, planning the material resources necessary for its development.

CR6.2 The planning of the installation work of the photovoltaic installation is carried out according to the requirements of the safety plan, moving, to the different operators under his command, the necessary training or information concerning the requirements of the safety plan. CR6.3 Professional risks arising from the installation of the installation are identified and controlled, managing the deployment and location of health and safety infrastructures as well as the use, operation and conservation status of the equipment. of security and personal protection. CR6.4 The use, operation and conservation status of machinery, vehicles, tools and other technical means used in the installation are controlled, verifying that they are in perfect state of use. CR6.5 The emergency plan related to the assembly process of the solar photovoltaic installation is managed, paralyzing the work when the safety measures are not met or there is a risk for the people. CR6.6 Environmental risks are assessed and controlled to avoid or reduce them to the minimum possible levels, while respecting the rules of application.

RP7: Manage the documentation related to the processes of the installation of the photovoltaic solar installation, ensuring compliance with the legal requirements and the application of organizational criteria established by the company.

CR7.1 Project documents, symbolic schemes, lists of materials, operating manuals and other technical documents are managed in accordance with the requirements of the company and the organisational criteria for clarity and control.

CR7.2 Work parts, albarans, invoices, control for certifications, and other administrative documents are organized and controlled during the installation assembly process. CR7.3 The topography documents, the data collection for the settlement, the variations in relation to the project, in the technical specifications of elements, are controlled and collected to constitute the documentary basis of the work. CR7.4 The documentation related to the necessary official permits in the work is managed in the face of possible legalizations, grants and inspections.

Professional context:

Production means: Work tools, tools and measuring devices: equipment for movement of materials, cranes, tros, hoists, winches, hydraulic jacks, braces, polimeter, amperimetric clamp, meter insulation, tellurometer, fasimeter, network and harmonic analyser, power and energy analyser, energy meters, tachometer, anemometer. Radiation meter. Compass, topographical devices. Hand tools: arc saw, screwdrivers, fixed keys, dynamometer keys, flexometer, marking tools, maces, level, pliers, pelacables, welder, scissors, terminal tongs, drilling machine, electric screwdriver, riveting, and useful for hoisting. Safety equipment. Components of the installations: photovoltaic panels, supports, measuring equipment, control equipment and, where appropriate, masts, gondolas, blades, rotor, multipliers, accumulators, load regulators, conventional generators.

Products and results:

Pv installation mounted with all of its installed and connected elements.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly programs, parts of work; technical specifications; map of solar paths; Traditional and digitised cartography; catalogues; service and use manuals; assembly and operation instructions; UNE standards, Low Tension Electrotechnical Regulation, safety regulations, municipal ordinances and codes of operation building.

Competition Unit 4: Organize and control the maintenance of solar PV installations

Level: 3.

Code: UC0845_3.

Professional realizations and performance criteria: RP1: Organize and control the different maneuvers and adjustment operations in the photovoltaic solar installations for the optimization of its operation. CR1.1 The signals and data obtained, directly or through telecontrol and telemando systems, are interpreted to optimize the operation of the installation through adjustment operations.

CR1.2 The different types of maneuvers and adjustments to be made in the installation are determined, reported and controlled. CR1.3 The operating and stopping manoeuvres of photovoltaic solar installations are controlled and monitored according to the requirements of quality, efficiency and safety. CR1.4 The seasonal adjustment and adaptation operations of installations, related to the climatic variations, are controlled and monitored according to the requirements of quality, efficiency and safety. CR1.5 The safety measures required in the manoeuvres are controlled and monitored, guaranteeing the control of the risk to the people, the environment and the installation itself. CR1.6 The results of the exercises and tuning operations are analyzed to draw conclusions about the optimization of the performance and the safety of the installation.

RP2: Develop, apply, and improve the maintenance plans of photovoltaic solar installations.

CR2.1 The technical information provided by equipment manufacturers and elements used in solar photovoltaic installations is used in the production of maintenance programs.

CR2.2 The company's own maintenance manuals, in line with the regulations and application ordinances, are prepared and maintained up to date. CR2.3 The definition of tasks, procedures and methods of intervention and disassembly/assembly, health check ranges, times and the human and material resources necessary for its execution in the time and cost envisaged are assured that they are contained in the installation maintenance program. CR2.4 Quality control criteria are set for the different stages in which maintenance is organised. CR2.5 The critical points of the facilities that involve higher risk of over-temperature, lack of electrical supply or modification of the normal parameters are considered in the elaboration of the maintenance programs. CR2.6 The established maintenance programs optimize the own resources, determine the needs of external support and guarantee the fulfillment of the production objectives. CR2.7 The procedures used in preventive and corrective maintenance are regularly updated, incorporating the improvements detected. CR2.8 Continuous improvement of maintenance management plans, testing of new techniques, participation in the process of fiabilization of new products used in the facilities, are carried out and monitored.

RP3: Organize and monitor the preventive and corrective maintenance processes and procedures of photovoltaic solar installations.

CR3.1 The organization and supervision of the maintenance and repair of the facilities is performed using the documentation received and generated, technical and administrative.

CR3.2 The diagnosis of the failure and/or failure of the equipment, element or system of the photovoltaic solar installation, is monitored and controlled, applying techniques of analysis of the data taken to carry out the assessment, information The installation technique and history of the installation. CR3.3 The specifications of the different materials and equipment used in the maintenance of photovoltaic installations are elaborated for the management of their acquisition. CR3.4 The stock of warehouse materials and systems for distribution are organized, managed and controlled under the premises of efficiency, efficiency and maximum quality. CR3.5 The available human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the different types of maintenance, are coordinated and controlled under the premises of efficiency, efficiency and with the highest quality. CR3.6 The process of reviewing panels, monitoring systems, accumulators, conductors and channelings, conventional electrical equipment, electrical equipment, and other elements submitted to review campaigns, are organized and controlled with the the objective of ensuring that most maintenance is of a preventive nature. CR3.7 The monitoring of maintenance is carried out by controlling the quality of its execution and the costs, obtaining the necessary control indicators to establish the benchmarks that profile the most convenient lines of action and solving the contingencies with maximum efficiency and meeting the programmed objectives. CR3.8 The data obtained from the revisions or modifications of the facilities, are controlled and collected, in order to maintain the information systems and databases updated. CR3.9 The management of the control sheets of the periodic maintenance of the different elements, as well as the elaboration of the historical database are carried out using appropriate technological systems. CR3.10 The attention to warnings and complaints for problems or failures in the installation is managed with the highest efficiency and quality.

RP4: Organize and control the application of the standards and measures of risk prevention, safety, health and environmental in the maintenance of photovoltaic solar installations.

CR4.1 The professional risks arising from maintenance intervention are identified and controlled, applying the safety plan in maintenance.

CR4.2 The management, deployment, and location of the security and health infrastructures of the installation, are developed, monitored, and controlled. CR4.3 The safety and personal protection equipment used in the maintenance work is monitored by checking its operation and conservation status. CR4.4 The use, operation and conservation status of machinery, vehicles, tools and other equipment used in the work is monitored from the point of view of safety. CR4.5 The emergency plan related to the installation maintenance process is managed. CR4.6 Environmental risks are assessed and controlled to avoid or reduce them at all times.

RP5: Control and monitor documentation related to the operation and maintenance processes of photovoltaic solar installations.

CR5.1 Work parties, albarans, invoices, orders, and other administrative documents are organized and controlled within the maintenance process.

CR5.2 Customer demands are recorded, transmitted and handled with the utmost speed. CR5.3 The administrative procedures and quality management systems in the maintenance are applied and monitored for execution. CR5.4 Inventories are reviewed, updated and managed, controlling information related to high, low, and repairs. CR5.5 The maintenance of mobile parks, tools, machinery, communication systems and other equipment is monitored and monitored to verify that it has been carried out in accordance with technical requirements. CR5.6 The IT systems used in the processes of operation and maintenance of photovoltaic solar installations are monitored, verifying that they conform to the established operating parameters.

Professional context:

Production means: Work tools, tools and apparatus of measurement: Equipment for movement of materials, cranes, tros, hoists, winches, hydraulic jacks, braces, polimeter, amperimetric clamp, meter insulation, tellurometer, fasimeter, network and harmonic analyser, power and energy analyser, energy meters, tachometer, anemometer. Radiation meter. Compass, topographical devices. Hand tools: arc saw, screwdrivers, fixed keys, flexometer, marking tools, maces, level, pliers, peelable, welder, scissors, tongs for terminals, drilling machine, electric screwdriver, rivet and hoisting tools. Safety equipment. Components of the installations: photovoltaic panels, supports, inverters, measuring equipment, control equipment, masts, gondolas, blades, rotor, multipliers, batteries, conventional generators.

Products and results:

Solar photovoltaic installation operated and maintained. Solar photovoltaic installation repaired. Documented maintenance operations.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; maintenance programs, parts of work; technical specifications; map of solar paths; Traditional and digitised cartography; catalogues; service and use manuals; assembly and operation instructions; databases; computer programs; UNE standards, electrical regulation, environmental regulations, safety regulations, quality regulations for municipal and local authorities; building codes.

Training Module 1: Feasibility Studies of Solar Facilities

Level: 3. Code: MF0842_3.

Associated with UC: Determine the feasibility of solar installations projects.

Duration: 120 hours. Assessment capabilities and criteria:

C1: Classify, quantify and analyze the energy needs of different types of users in order to diagnose the possibility of performing a solar installation. CE1.1 In a practical case, duly characterized, of a building with several houses in which there is demand for electrical and thermal energy for hot water and heating:-to specify the ways of life and services required.

-Quantify electrical energy for lighting and strength, and for general community services. -Quantify the electrical energy for lighting and other uses in each of the housing typologies. -To describe seasonal variability, times of electrical consumption and the concurrency factor. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify the thermal energy for each dwelling and for all of them, analyzing the seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

CE1.2 In a practical case, sufficiently characterized, of a single-family dwelling in which there is demand for electrical and thermal energy for hot water, heating and cooling:

-Detailed the required uses and services.

-Quantify electrical energy for lighting, strength and for other uses. -To describe seasonal variability and times of electrical consumption. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify thermal energy and detail seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

CE1.3 In a practical case, perfectly characterized, of a swimming pool heated by thermal solar energy, with support system:

-Detailed the required uses and services.

-Quantify electrical energy for lighting, strength and for other uses. -To describe seasonal variability and times of electrical consumption. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify thermal energy and describe seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

C2: Define the solar potential in a given area for the realization of solar installations, using suitable means and complying with the standards and regulations required.

CE2.1 Determine the parameters of solar radiation in a given location for which there are elaborate tables that allow to obtain directly the values sought.

CE2.2 Determine the parameters of solar radiation at a given site for which there are elaborate tables to interpret and correlate different results to make a reasonable estimate. CE2.3 To explain globally the most common models in the empirical determination of the different types of solar radiation. CE2.4 Measure and record solar radiation data through the use of the pyrometer, pirheliometer, and other usual recording devices. CE2.5 To determine, for a given site and surface, the possibilities of performing a solar thermal and/or photovoltaic installation, reasoning the potential and possible energy use.

C3: Develop proposals for solar installations, aimed at clients, in which the characteristics of the installation and the analysis of the applicable regulatory and grant framework are collected.

CE3.1 To study and assess energy needs and justify the use of solar thermal and/or photovoltaic energy.

CE3.2 Razonar, in the case of solar installations, the ideal location for the catchers, panels and for the different teams attending to the conditions of shade, obstacles and other determining factors in the Solar exploitation, studying the aesthetic and visual factors associated. CE3.3 Razonar, in the case of thermal solar installations, the characteristics of the different elements and components of the circuits of the installation. CE3.4 Razonar, in the case of photovoltaic solar installations, the characteristics of the different elements and components of the circuits of the installation. CE3.5 Report and review the regulatory framework related to the authorisation of the installation and the requirements arising from it. CE3.6 Report and review the legal framework for possible grants to the facility and the requirements arising from it. CE3.7 Make an indicative budget of a solar thermal installation in which the site, scheme of principle and the costs and savings provided are detailed. CE3.8 To carry out an indicative budget of a photovoltaic solar installation in which the site, scheme of principle and the costs and savings provided are detailed. CE3.9 To draft the formalized document with the proposal of realization of the thermal solar installation using computer tools with applications of general purpose.

Capabilities whose acquisition must be completed in a real working environment: C3 with respect to CE3.7, CE3.8 and CE3.9. Other capabilities:

Communicate effectively with clients.

Have an initiative to promote projects. Ability to adapt to the context and needs of people.

Contents:

1. Fundamentals of solar energy. The Sun as a source of energy. The Sun and the Earth.

Conversion of solar energy. The accumulation of energy. Integrated energy systems.

2. Location and feasibility of solar energy installations.

Energy needs. Calculation.

Solar potential of an area. Measurement tables and systems. Site factors. Orientation, inclination and shadows. Architectural and structural systems. Architectural integration. Feasibility. Economic and financial factors.

3. Solar thermal energy.

Classification of thermal solar installations. Global operation. Solar catchers. Operation, constitution and connection. Elements of a solar thermal installation and specifications: sensors, primary and secondary circuits, exchangers, accumulation tanks, expansion tanks, circulation pumps, pipes, purgators, flow meters, valves and elements of regulation and control. Solar cooling systems. Implementing rules.

4. Photovoltaic solar energy.

Classification of photovoltaic solar installations. Global operation.

Solar Panels. Operation, constitution and connection. Elements of a solar photovoltaic installation connected to a network and specifications. Solar tracking systems. Elements of an isolated solar installation and specifications. Energy systems for support and accumulation. Solar cooling. Implementing rules.

5. Promotion of solar installations.

Promotion of renewable energy. Energy models and policies.

International, national and regional context of solar energy. Economic and financial studies of solar installations. Technical Building Code. Municipal ordinances and implementing rules. Regulatory framework for grants. Legislation and calls. Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

Professional trainer profile:

1. Domain of knowledge and techniques related to the determination of the feasibility of solar installations projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Solar PV Facility Projects

Level: 3.

Code: MF0843_3. Associated with the UC: Develop photovoltaic solar installations projects. Duration: 240 hours.

Assessment Capabilities and Criteria:

C1: Analyze the different types of photovoltaic solar installations, selecting the most adapted to the constructive characteristics, the user's energy needs and the implementing regulations. CE1.1 List the main rules and regulations for the application of photovoltaic solar installations.

CE1.2 Describe the characteristics of the different solutions of solar photovoltaic installations with network connection. CE1.3 Describe the characteristics of the different solutions of isolated photovoltaic solar installations. CE1.4 Describe the characteristics of the different support facilities for photovoltaic solar installations. CE1.5 In a practical case, duly characterised, of a photovoltaic installation with a network connection:

-Describe the functions of the different elements of the installation.

-Identify and select technical, administrative and quality regulations, whether or not they are enforced, affecting the development of the project. -Determine the documentation to be developed according to the regulatory requirements. -To draw up a report on the required requirements: technical specifications; characteristics of the materials; regulations and regulations; security required.

CE1.6 In a practical case, duly characterized, of an isolated solar photovoltaic installation:

-Describe the functions of the different elements of the installation.

-Identify and select technical, administrative and quality regulations, whether or not they are enforced, affecting the development of the project. -Determine the documentation to be developed according to the regulatory requirements. -To draw up a report on the required requirements: technical specifications; characteristics of the materials; regulations and regulations; security required.

C2: Determine the different elements that integrate photovoltaic solar installations, using established means and complying with the required standards and regulations.

CE2.1 Perform electrical production calculations of photovoltaic installations based on the solar radiation data and taking into account the expected daily and seasonal consumption, the contributions of the support facilities and the efficiency of the set of the installation.

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 calculation programs computerised. CE2.3 In a practical case, duly characterised, of a grid-connected photovoltaic solar installation:

-Identify the constituent elements of the installation.

-Perform or complete the schemas of the different parts of the installation. -Determine the characteristics of the different elements of the installation. -Select from the commercial catalogues, the different equipment and materials from the defined characteristics. -To dimension the supports, benches and other elements subject to mechanical requests.

CE2.4 In a practical case of a solar photovoltaic installation with support by conventional or wind-based electrogen group:

-Identify the constituent elements of the installation.

-Perform or complete the schemas of the different parts of the installation. -Determine the characteristics of the different elements of the installation. -Select from the commercial catalogues, the different equipment and materials from the defined characteristics. -To dimension the supports, benches and other elements subject to mechanical requests.

C3: Draw, in the appropriate support, the plans, principles of operation, general schemes and details that make up the graphical documentation of the project of assembly of the solar photovoltaic installation.

CE3.1 In a practical case, duly characterized, of a solar photovoltaic installation:-Choose the appropriate graphical representation system.

-Select the rules to be used in the graphical representation. -Select the useful tools, supports and formats for the realization of the plane. -Identify and name each of the different plans of the project. -Draw and narrow the planes in a clear and concise way.

C4: Develop memories, budgets and other technical documentation of the project required for the assembly, maintenance and use of the solar photovoltaic installation.

CE4.1 Formalize the technical document with the calculations and justifications of the different parts of the solar photovoltaic installation.

CE4.2 Perform facility budgets detailing the different concepts of expenditure and analyze grant possibilities and amortization forecasts. CE4.3 Draw up the schemes for the assembly of the elements of the project, in particular with regard to the dimensional and orientation calculations. CE4.4 Perform the operating manual in which they are included: instructions for installation, commissioning, use and maintenance, with their corresponding schemes. CE4.5 Compose and assemble, in order, the project documents and the technical dossier, obtaining a suitable presentation.

C5: Develop safety and health plans for the assembly of solar photovoltaic installations.

CE5.1 Define the risks derived from falls, in the same or different level, entrapments and falls of objects.

CE5.2 Define the thermal risks originating from the solar photovoltaic installation. CE5.3 Define the electrical risks associated with external circuits, high temperature and other extreme conditions. CE5.4 Detail the emergency plans to be implemented in the assembly of photovoltaic solar installations. CE5.5 Formalize and document emergency plans to be implemented in the assembly of photovoltaic solar installations. CE5.6 To describe the environmental conditions present in the assembly of photovoltaic solar installations.

C6: Develop the documentation of the file necessary for the administrative authorization and for obtaining, where appropriate, the corresponding grants.

CE6.1 Describe the administrative processes that follow the case for installation authorization.

CE6.2 Perform the necessary documents for the administrative authority of the installation. CE6.3 Describe the administrative processes that follow the file for obtaining grants. CE6.4 To draw up the reports and other documents in the grant file. CE6.5 In a practical case of a solar photovoltaic installation, characterized by the technical and architectural solutions already raised:

-Define the rules and procedures required to get the installation authorization.

-Define the possible legal framework for obtaining a grant and determine the requirements and the process to be followed in your application. -To carry out a study of the depreciation of the installation, establishing reasonable assumptions of energy consumption, installation operation, solar climatology and energy price.

Capabilities whose acquisition must be completed in a real working environment: C6 with respect to CE6.5. Other capabilities:

Prove a good professional.

Awareness of the transcendence of calculations and designs for security, operation and cost.

Contents:

1. Electrical circuits and distribution networks. Fundamentals of electrical circuits of continuous current and alternating current.

Rectifiers and converters. Power factor of an electrical installation. Calculation of sections of an electrical installation. Networks for distribution in Baja Tension. Systems for connecting the neutral and the masses in electricity distribution networks.

2. Features and commissioning of indoor or receiving facilities.

General prescriptions. Installation systems. Protective tubes and channels.

Protection from over-intensities. Protection against surges. Protection against direct and indirect contacts. Indoor facilities in dwellings. Number of circuits and features. General installation requirements. Installations in premises of special characteristics or purposes. Facilities at very low Tension. Installations at special voltages. Low voltage generating facilities. Installation of receivers: lighting, heating apparatus, cables and radio fuses in dwellings, motors, transformers and self-transformers, reactances and rectifiers, capacitors. Installations of automation systems, technical management of energy and security for houses and buildings. Authorized installers. Documentation and commissioning of the facilities. Verifications and inspections.

3. Projects in photovoltaic solar installations.

Needs to be considered in the development of a project. Receiving installation.

Sources of information. Assessment of alternatives. Technological and economic criteria. Components of a project: data involved, required standards, descriptive and supporting documents, plans, specifications, budgets. Safety plan.

4. Calculation of photovoltaic solar installations.

More important variables and calculation factors. Methods used.

Calculation of grid-connected photovoltaic installations. Number of panels. Calculation of isolated photovoltaic installations. Calculation of the system of cumulation. Calculation of support systems using conventional electrogenics. Calculation of support systems using wind systems. Calculation of autonomous pumping and irrigation systems using photovoltaic systems. Computer software for calculation.

5. Design and representation of photovoltaic solar installations:

Design of panels and electrical circuits.

Planes of the necessary civil work. Drawings of the electrical schemes. Drawings of details. Mounting planes of the different elements of the installation. Software for assisted design.

6. Integration of photovoltaic solar installations:

Aesthetics and architectural integration.

Integrated Photovoltaic Panels. Integration of solar installations. Passive solar architecture, photovoltaic solar energy. Conventional energy and solar energy. Distributed systems for the production of electrical energy through photovoltaic systems.

7. Administrative processes in photovoltaic solar installations:

Regulatory framework for grants. Legislation and calls.

Subsidy processing. Technical and administrative documentation. Promotion and management of facilities. Submission of tenders.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-160 m2 electrical network facilities workshop.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of photovoltaic solar installations projects, which will be accredited by one of the following forms: Academic training of Technical Engineer or others of higher level related to this professional field.

Professional experience of a minimum of 3 years in the field of competencies related to this training module.

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Organization and control of photovoltaic solar installations assembly

Level: 3.

Code: MF0844_3. Associated with the UC: Organize and control the assembly of photovoltaic solar installations. Duration: 120 hours. Assessment capabilities and criteria:

C1: Analyze the interpretation and management of the technical documentation of photovoltaic solar installations by determining the activities and resources to plan the assembly process. CE1.1 Describe the different documents that make up a project, technical memory or a manual of assembly of a photovoltaic solar installation, distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE1.2 Describe the general phases of development of a process of mounting a solar photovoltaic installation, identifying the technical phases of the assembly from time to time and plans. CE1.3 Represent symbolic schemes, sketches and isometric diagrams of a photovoltaic solar installation and its components to facilitate its mechanical and electrical assembly. CE1.4 to handle and interpret graphic information of solar photovoltaic installations developed in computer representation systems by performing copying or modification of data, using standardized procedures, corresponding to specific programmes for the design and representation of photovoltaic solar installations. CE1.5 To describe the fundamental requirements of the regulations and standards applicable to this type of facilities: municipal ordinances, electrical regulations, safety regulations, quality regulations and environmental regulations. CE1.6 Fill in the technical and administrative documentation related to the installation of the installation, classifying the different documents according to the type and the management process that they must follow. CE1.7 In a practical case of a solar photovoltaic installation characterized by the drawings and the corresponding technical documentation:

-Identify the different components of the installation, locating their placement.

-Specify the characteristics of each of the elements that compose it: panels, tracking systems, accumulation systems, pipes, conductors, measurement equipment and control equipment. -Relate the composition and characteristics of the photovoltaic solar installation to the regulatory requirements that apply to it. -Razon the operation of the installation, describing the function, structure and composition of the different parts that configure it. -List and describe the installation management documents associated with the installation.

C2: Develop procurement programs for the assembly of solar photovoltaic installations.

CE2.1 Use the technical and administrative information derived from the technical project, to develop procurement programs for the assembly according to methods used in strategic planning.

CE2.2 Perform the provisioning plan by coordinating the assembly plan with the possibilities of provisioning and storage, guaranteeing the supply at the appropriate time. CE2.3 Define and develop the quality control criteria in the different stages that make up the supply. CE2.4 Design the provisioning of security systems and equipment in the assembly. CE2.5 In a practical case of a solar photovoltaic installation characterized by the installation plans and commissioning manuals:

Determine the technical prescriptions required for the components.

Determine the quality control criteria in the component receipt. Manage the procurement logistics of materials and equipment.

C3: Develop work plans for the assembly of photovoltaic installations according to the corresponding project and the established work procedures.

CE3.1 Describe the different techniques to be used in the assembly processes of photovoltaic installations: assembly, bolting, leveling, riveting, anchoring, connection.

CE3.2 Relate the human resources involved in the different phases of the assembly operations of photovoltaic installations. CE3.3 Describe the assembly job optimization procedures. CE3.4 Represent the schemes of organization of work and control of times in the assembly of photovoltaic solar installations by means of diagrams and timetables appropriate to their level. CE3.5 Raise the installation service and define the different tests to be performed. CE3.6 Describe and assess the implementation of the safety and health plan in the installation. CE3.7 In a work plan for the assembly corresponding to a solar photovoltaic installation characterized by the installation plans and commissioning manuals:

-Determine the requirements of the work zones in the different phases of the assembly.

-Select the materials, tools, and other technical resources required to perform the work. -Determine the human resources required in the different phases. -To determine the adequacy of the components to the technical prescriptions and to produce a report of disconformities. -Determine the sequence of assembly by a flujogram. -Define the assembly techniques in the key points of the installation. -Determine the tests and operations for putting into service. -Determine the corrective measures to be taken in anticipation of possible deviations in relation to the plan of the work. -Raise the implementation of the security plan.

C4: Justify the constructive solutions of the resistant structures that are necessary in the solar photovoltaic installation and control the general assembly operations from the technical documentation, applying standard procedures, relevant regulations and acting under security rules.

CE4.1 Repose the general project of the installation and compare the data and plans of the project with the reality of the terrain and/or buildings involved.

CE4.2 Determine the different types of efforts that the structural elements of the installation are subjected to, assessing the adaptation of the geometry of the structure to the same. CE4.3 Perform simple calculations to determine the dimensions of new elements required in the reimagining of the work and that have not been determined in the project or memory. CE4.4 Select, from technical catalogues, the resistant, fastening and anchoring systems that are necessary in the assembly of structures, choosing the most appropriate according to the characteristics of the installation, the environmental environment, of the land or the building. CE4.5 Given a practical case or actual installation, from the project or memory, in which the design of the resistant structure of a photovoltaic installation and a support wind turbine is detailed:

-Determine the degree of adequacy of the solution to the reality of the terrain.

-Define unspecified constructive detail solutions. -Calculate the dimensions of the hardware, braces and other necessary resistant elements. -To determine the most problematic points from the point of view of the efforts they are subjected to. -Choose the most appropriate anchoring and fastening system. -To detail the consequences of the rupture or failure of critical resistant structures and to propose possible reinforcement solutions in those situations that are more serious for people or for things. -Review the assembly operations of the structures.

C5: Control the general assembly operations from the technical documentation, applying standard procedures, corresponding regulations and acting under security rules.

CE5.1 Describe the control operations of the assembly and connection of photovoltaic panels.

CE5.2 Describe the control operations of the assembly and connection of the energy storage/accumulation systems. CE5.3 To justify the requirements for assembly and integration of the support facilities with the photovoltaic solar installation, describing the control points for the case of a conventional electrogen group and for a wind support system. CE5.4 To explain the supervisory tasks related to electrical equipment and installations for protection, regulation and control. CE5.5 Select, from technical catalogues, the additional elements and equipment not defined in the project or memory, choosing the most appropriate.

C6: Define the quality criteria in the assembly and commissioning operations of solar photovoltaic installations from the technical documentation, applying standard procedures, regulations and acting under security rules.

CE6.1 Define the required requirements for the preparation of the work area according to the requirements of the work, identifying the specific occupational risks and proposing their corrective measures. CE6.2 Make plans for the displacement of equipment and materials, and location in the most suitable place for the work to be carried out, under conditions of safety. CE6.3 Define the critical monitoring points of the assembly of the panels to ensure their integrity. and tightness.

CE6.4 Define the alignment, orientation, and tilt criteria in the panel placement. CE6.5 To describe the quality criteria in the finishing of the electrical power and control installation, according to established procedures and implementing regulations. Capacities whose acquisition must be completed in a real working environment: C1 with respect to CE1.7; C4 with respect to CE4.5.

Other capabilities:

Take responsibility for the work you develop, meeting the objectives and deadlines set.

Participate and actively collaborate on the work team. Ensure safety at work.

Contents:

1. Organisation of the assembly of photovoltaic solar installations. Organization and preparation of the assembly. Strategic planning techniques.

Methodological specifications for the panel assembly. Documentation of the materials. Machinery and equipment used in the assembly. Fundamental requirements of the implementing regulations: municipal ordinances, electrical regulations, safety regulations, quality regulations and environmental regulations.

2. Resistant structures in solar installations.

Types of efforts.

Resistant structures. Geometry and basic calculations. Wind and snow stocks. Anchoring systems. Structure mounting techniques. Systems for securing wind turbines. Noises and vibrations.

3. Control of the assembly of photovoltaic solar installations.

Procedures and operations for preparing and reposing facilities.

Civil work: displacement and lifting of materials and equipment. Determination and selection of equipment and elements necessary for the assembly from the installation plans. Adaptation and improvement of facilities. Assembly, settling, alignment and fastening techniques and operations. Assembly of the different elements of a photovoltaic solar installation. Quality in the assembly. Specifications for technical requirements. Technical documentation of the work. Reports.

4. Commissioning of photovoltaic solar installations.

Organization of electrical tests.

Tuning control circuits. Control of critical points. Interconnection of the support facility. Technical documentation related to the operation.

5. Safety plan in the assembly of photovoltaic solar installations.

General security measures.

Managing security on load-lifting. Management of security in the face of risks of electrical origin. Prevention and environmental protection. Emergency management. Communication systems.

Training context parameters:

Spaces and installations:

-Multi-purpose of a minimum of 2 m2 per pupil.

-160 m2 electrical network facilities workshop. -Outer surface for electrical installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the organization and control of the assembly of photovoltaic solar installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 4: Organization and control of the maintenance of photovoltaic solar installations

Level: 3.

Code: MF0845_3. Associated with the UC: Organize and control the maintenance of photovoltaic solar installations. Duration: 90 hours.

Assessment Capabilities and Criteria:

C1: Analyze the technical documentation of photovoltaic solar installations by determining the activities and resources to plan the maintenance process. CE1.1 To describe the technical documentation related to the solar photovoltaic installation, necessary to carry out the planning of its maintenance.

CE1.2 Identify, in the project or maintenance plan, the equipment and elements of the photovoltaic solar installations in order to plan the maintenance. CE1.3 Determine the critical points of a photovoltaic solar installation in which breakdowns can occur, their causes and the functional consequences and for the safety of the same. CE1.4 In a practical case, starting from the manual of maintenance instructions, plans, schemes and other technical documents:

-Determine the operations to be performed on the installation maintenance.

-Determine the type of human and material resources required to perform preventive maintenance operations. -Determine the type of human and material resources needed to perform the most common corrective maintenance interventions.

C2: Develop the written procedures of the maintenance operations of photovoltaic solar installations, determining the tasks, materials, means and criteria for the control of the execution.

CE2.1 Select, from among the set of preventive maintenance operations of a solar photovoltaic installation, those that require written procedures, justifying their selection.

CE2.2 Compose the procedure to be followed for the detection of the most common faults in the different types of installations. CE2.3 Develop specifications of different materials to manage their acquisition in the maintenance process. CE2.4 Explain the monitoring tasks related to the procurement of supplies and stock control. CE2.5 Compose the usual preventive maintenance procedures in the different types of facilities. CE2.6 Describe the safety plan in the maintenance process and determine the means and safety equipment to be taken into account for the performance of the repair, generating the necessary technical documentation in the process of intervention. CE2.7 In the procedure for the application of preventive and corrective maintenance, in which the different types of parts or equipment are replaced, with the help of the technical documentation:

-Set the order or sequence of the disassembly and mounting tasks, detailing previous security-related operations.

-Define the specifications of the operations to be performed. -To describe the technique to be used in the various tasks, establishing the necessary materials, means, tools, times and human resources. -To raise the requirements and tasks concerning the security of the operation.

C3: Apply programming techniques that optimize resources to develop intervention and maintenance monitoring programs.

CE3.1 Explain the different programming techniques of preventive maintenance and the requirements that must be met in each one.

CE3.2 Razor the characteristics of the workload chart. CE3.3 Reasoning the organisation, performance and implementation of a software for the management and control of maintenance. CE3.4 Detail the operation of the remote and telematic systems of photovoltaic solar installations. CE3.5 Explain the different components of maintenance costs and systems to optimize them. CE3.6 In a practical, duly characterised case, the development of a maintenance plan for one or more photovoltaic solar installations:

-Determine the types of intervention and timing.

-Establish the human resources and material resources necessary for the maintenance of the human resources. -Develop the ratio of spare parts and consumable products that are necessary for this period. -Perform an annual maintenance budget, breaking down the cost into its components: spare parts, unplanned stops, labor, travel, taxes and other associated expenses.

C4: Control general maintenance operations in photovoltaic solar installations from the technical documentation, applying standard procedures, corresponding regulations and acting under security.

CE4.1 Describe the maintenance and repair operations of the media, anchorages and other structural components of the photovoltaic solar installations.

CE4.2 Describe maintenance and repair operations on electrical, electronic, and control systems. CE4.3 Describe maintenance and repair operations in accumulation systems. CE4.4 Identify critical points in the maintenance of photovoltaic solar installations. CE4.5 Identify the operations to be controlled when preventive maintenance and repair of photovoltaic solar installations are performed. CE4.6 Describe the procedures for putting into service a photovoltaic installation once it has been repaired or the maintenance operations have been carried out. CE4.7 In practical cases of carrying out checks or preventive maintenance operations and repairs in photovoltaic solar installations:

-Verify that the fault and possible causes to which it obeys have been identified.

-Check that the operations to be performed are the required and the means to perform them are the appropriate ones. -Select in catalogues if necessary, the additional elements and equipment not defined in the project or memory, choosing the most suitable ones. -Supervise that the performance of the operations of both verification and repair is in accordance with the established working procedures. -Check that security measures are observed in the performance of all operations. -Supervise the commissioning of the photovoltaic installation.

Capabilities whose acquisition must be completed in a real working environment: C3 with respect to CE3.6; C4 with respect to CE4.7. Other capabilities:

Communication capacity to clients.

Resolvable capacity. Skills in conflict resolution. Ensure safety at work.

Contents:

1. Organisation of the maintenance of photovoltaic solar installations. Maintenance. Function, objectives and types. Preventive and corrective maintenance.

Planning and scheduling of maintenance. Maintenance plans. Tasks of preventive maintenance. Automatic telemedide and telecontrol systems. Calculation of needs. Load planning. Determination of times. Documentation for planning and scheduling. The work order. Safety plan in the maintenance of photovoltaic solar installations.

2. Economic management of maintenance photovoltaic solar installations.

The cost of maintenance. Cost analysis.

Value criteria for replacement of machines and equipment. Optimization of maintenance. Quality in service delivery. Economic and administrative documentation on maintenance. Invoices and budgets. Building book and other official documents related to registration, inspection and control.

3. Warehouse and materials maintenance photovoltaic solar installations.

Receiving and Encoding Supplies.

Organization of the warehouse. Stock management. Approval of suppliers.

4. Management of maintenance of solar photovoltaic installations assisted by computer.

Databases. Database creation.

Corrective maintenance software. Preventive maintenance software. Management and storage of purchases. Predictive maintenance. Training context parameters: Spaces and facilities:

-Multi-purpose of a minimum of 2 m2 per pupil.

-160 m2 electrical network facilities workshop. -Outer surface for electrical installations of 100 m2.

Professional profile of the trainer: 1. Domain of knowledge and techniques related to the organisation and control of the maintenance of photovoltaic solar installations, which will be accredited by one of the forms following:

-Academic training of Technical Engineer or others of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

ANNEX CCLXIV Professional qualification: Organization and projects of thermal solar installations

Professional Family: Energy and Water.

Level: 3. Code: ENA264_3.

General competition:

Promote facilities, develop projects and manage the assembly and maintenance of thermal solar installations by controlling the results obtained, applying the techniques and procedures required in each case, optimizing the human resources and the means available, with the required quality, complying with the current regulations and in conditions of safety.

Competition Units:

UC0842_3: Determine the feasibility of solar installations projects.

UC0846_3: Develop thermal solar installations projects. UC0847_3: Organize and control the assembly of thermal solar installations. UC0848_3: Organize and control the maintenance of thermal solar installations.

Professional environment:

Professional scope: Develop your professional activity, both self-employed, in the area or department of production of small, medium and large companies, public or private, dedicated to the assembly, the operation and maintenance of thermal solar installations for the production of hot water or for support for heating systems and other uses.

Productive Sectors:

It is located in the energy sector, subsector of production and distribution of electrical energy, gas, steam and hot water, in the productive activities in which the assembly, the operation and the maintenance of installations are carried out Thermal solar water for the production of hot water or for the support of heating systems and other uses.

Relevant Occupations and Jobs:

Promoter of solar installations.

Projected thermal solar installations. Responsible for assembling thermal solar installations. Responsible for maintenance of thermal solar installations. Associated training (570 hours).

Training Modules:

MF0842_3: Solar installations feasibility studies (120 hours).

MF0846_3: Thermal solar installations projects (240 hours). MF0847_3: Organization and control of the assembly of thermal solar installations. (120 hours). MF0848_3: Organization and control of maintenance of thermal solar installations (90 hours).

Competition Unit 1: Determine the feasibility of solar installations projects

Level: 3.

Code: UC0842_3.

Professional Achievements and Realization Criteria: RP1: Assess the user's energy needs and interests and classify them for decision making on the type and characteristics of the most appropriate energy supply. CR1.1 The user's energy needs are classified according to the applications, the specifications of the receivers and the characteristics of the energy demand to satisfy.

CR1.2 The electrical energy needs are quantitatively determined and their basic parameters are set from the type of receivers. CR1.3 Thermal energy needs are determined quantitatively and their basic parameters are set, especially the annual seasonal average yields of equipment and facilities depending on their maintenance status.

CR1.4 The seasonal usage variable, utilization times, working temperatures, and concurrency factor are determined and represented from recognized sources of information and from the data itself provided by the user.

CR1.5 The formalization of a user's diagnosis and energy needs is accomplished by determining the different supply possibilities, the overall economic costs, and the amortization of the installation.

RP2: Determine the solar potential of an area for decision making on the possibilities of application of solar energy.

CR2.1 The parameters of global solar radiation, average daytime ambient temperature and cold water temperature of the network are obtained from official, or sufficiently reliable, statistical data collected in tables. CR2.2 The correlation between data is performed when the required information is not directly given by available tables or statistics.

CR2.3 The collaboration in the application of models for the determination of direct, diffuse and global solar radiation is carried out using the necessary software. CR2.4 The measurement and recording of solar data is carried out by using the pyrometer, pirheliometer, "datalogger", automatic stations and other systems, in the required quality and safety conditions. CR2.5 The use of solar energy is justified on the basis of the assessment of available solar potential.

RP3: Formalize proposals of solar installations responding to the energy needs and interests of the customers.

CR3.1 The study of the components of the solar installation required is done using the technical information provided by the solar equipment manufacturers, making the necessary calculations and adapting to the user needs.

CR3.2 The study of the ideal location, number and size of sensors or panels is carried out according to the construction in which they are to be located, as well as the conditions of shadows, obstacles and other factors determining the use of solar energy. CR3.3 The study of the visual impact of the installation is carried out, guaranteeing that it is the minimum possible according to the interests of the user, the normative requirements and the possibilities of location. CR3.4 The proposal is concrete and formalised by incorporating the technical characteristics, general schemes, complementary sketches and guidelines on regulatory compliance, possible grants, amortisation and funding. CR3.5 The information and advice is offered to the user, responding to the different issues that he can raise in terms of technical characteristics, applicable regulations, economic viability, maintenance requirement, reliability, guarantee supply and other aspects related to the solar installation.

Professional context:

Production Media: Computer. Simulation software. Compass. GPS, tape metric. Piranometer and pirheliometer. Datalogger and automatic stations.

Products and results:

Technical and economic studies. Budgets. Customer advice. Processing of permits and grants.

Information used or generated:

Geographical and Catastral Maps. Technical catalogues. Tables, charts, maps and statistical series on solar parameters. Fuel prices. Regulations and implementing rules. Rules for grants. Forms, applications for grants.

Competition Unit 2: Develop thermal solar installations projects

Level: 3.

Code: UC0846_3.

Professional achievements and performance criteria: RP1: Define the characteristics of the solar thermal installation, applying calculation procedures and established standards, to select the necessary equipment and elements with its specifications. CR1.1 The selected elements are found to be in compliance with the industry standard technology and the approval standards.

CR1.2 The characteristics of the elements, equipment, components and materials are determined by technical calculations based on objective and reliable data, using manual, tables and computerized calculation programs. CR1.3 The calculations performed have the required accuracy and are checked and contrasted with those of other optimal operating facilities. CR1.4 The conditions of compatibility between the different elements of the solar installation and with other elements of auxiliary and receiving facilities, ensures the performance, reliability and productive capacity of the installation as a whole. CR1.5 The choice of components is made taking into account the guarantees of interchangeability, supply and cost.

RP2: Make memories, reports, and manuals of thermal solar installations that are required by the official regulatory agencies.

CR2.1 The introduction and justification of the solar thermal installation project is carried out according to technological criteria of energy supply, normative criteria and strategic criteria, among others.

CR2.2 The overall technical description of the installation is performed through its functional analysis. CR2.3 The technical justification for the sizing and specifications of the different parts and the different components is performed using numerical calculations when necessary. CR2.4 The security and protection systems designed, the employees and other critical points of the installation are analyzed in the report or memory. CR2.5 The operation and maintenance manual of the facility is written on the basis of the type of building and the existing conventional equipment, documenting the systems of protection against the legionella and establishing the activities and surveillance and maintenance operations according to the model required. CR2.6 The formal document for the report or memory is written using general purpose computer applications.

RP3: Elaborate plans of general layout and detail of thermal solar installations, based on the technical specifications of established design, achieving the required quality and finishing levels.

CR3.1 The information necessary for the lifting of the building plans, which is required for the development of the project, is obtained directly from the building or, where appropriate, the building project.

CR3.2 The most unique points and accidents existing in the building and its structures, which affect the solar installation, are systematically collected. CR3.3 The sketches meet the requirements of proportion and adequate graphic expression for their unequivocal interpretation. CR3.4 The installation site plans are implemented by applying the established regulations and optimizing the drawing process by incorporating the drawings and/or technical specifications of the standardized elements. CR3.5 The representation of the different parts and circuits of the installations is carried out with the symbology and with the standard conventionalisms of application. CR3.6 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 the memory and meeting the requirements of operation and safety as well as other regulations and enforcement ordinances. CR3.7 The structural strength and waterproofing of the building are considered in the constructive solutions adopted in the assembly and maintenance of the installation. CR3.8 Material lists include code and specifications of project elements. CR3.9 The formal document with the plans is elaborated by computer applications of assisted design.

RP4: Elaborate thermal solar installations budgets from the designs made and detailing the different items.

CR4.1 The business reference, code, and technical specifications of the project elements are included in the material lists.

CR4.2 The unit price and the total of each material and equipment are detailed, obtaining the total price of each item and the set of the installation. CR4.3 The costs incurred by the workforce are quantified for each of the professionals involved in the installation of the solar thermal installation. CR4.4 The general expenses, industrial benefit and value added tax apply to the different items and the percentages legally established. CR4.5 The project and the budget derived from the installation are detailed and defined in such a way that the unforeseen expenses of the facility tend not to exceed 5% of the total budget.

RP5: Develop the health and safety plan in the installation of the solar thermal installation, using the project documentation and ensuring compliance with the regulations.

CR5.1 The risks arising from falls, in the same or different level, entrapments and falls of objects, are identified and assessed their importance.

CR5.2 The thermal risks originated in the solar installation are identified and evaluated its importance. CR5.3 The electrical risks associated with external circuits, high temperature and other extreme conditions are identified. CR5.4 The forecast and planning of the emergency plan is integrated into the documentation of the work. CR5.5 The safety plan of the work is formalized, identifying the different occupational risks and proposing the corrective measures for its elimination, reasonable reduction and control. CR5.6 Environmental conditions are contrasted and the criteria for action are set for minimisation.

RP6: Perform the required administrative procedures to obtain the authorization of the solar thermal installation and to access the possible grants.

CR6.1 The compliance with the technical and administrative regulations of the installation is preliminarily assured to the completion of the authorization procedures before the corresponding official bodies.

CR6.2 The required technical and administrative documentation for obtaining the installation permits is completed, organized and processed. CR6.3 Compliance with administrative and other requirements for access to existing grants for this type of facility is preliminarily assured of the completion of the application procedures to the agencies. officials. CR6.4 The technical and administrative documentation required for the application of the installation grants is completed, organized and processed. CR6.5 The monitoring of the administrative processes related to the authorisation and permissions to perform the installation and related to the grant application is carried out, avoiding the stoppage of files for reasons attributable to the installer.

Professional context:

Production media: Metro and other devices for distance measurement. Compass, GPS. General purpose computer equipment and applications. Assisted design teams. Plot plotter. Printers. Producers of plans and documentation. Drawing instruments. Computer software for calculation and simulation.

Products and results:

Croquis of installations and their elements. Memory. Joint plans. Drawings of detail. Lists of materials, equipment and standard elements. Budget. Safety plan. Manuals for instructions for the use, operation and maintenance of thermal solar installations.

Information used or generated:

Building plans. Maps. Regulations and implementing technical standards. Regulations on urban planning and construction regulations. Technical catalogues of materials and products. Price lists. Work orders, parts. Forms, applications for grants.

Competition Unit 3: Organize and control the assembly of thermal solar installations

Level: 3.

Code: UC0847_3. Professional achievements and performance criteria:

RP1: Interpret the project or technical memory of the installation of a solar thermal installation, to proceed to the planning of its execution and to the definition of the phases of work. CR1.1 The project or plan memory is parsed or interpreted in the planning process.

CR1.2 The topographical and site characteristics of the projected installation are interpreted from the drawings. CR1.3 The functional characteristics of the projected solar installation and its auxiliary equipment are interpreted from the information contained in the project. CR1.4 The elements related to the organization and control of the execution are interpreted from the documentation of the project or plan of the work. CR1.5 The sequencing and general organization of the assembly is established from the project, carrying out a work plan in which the process is optimized in terms of security, method and time. CR1.6 The schedules required for each of the mounting phases are performed in such a way as to ensure the coordination and chaining of the different parts of the installation. CR1.7 The provisioning plan is carried out by coordinating the assembly plan with the possibilities of supply and storage and guaranteeing the supply at the appropriate time. CR1.8 The preliminary organization of the human resources and necessary means is established by defining the functions of each operator or guild and its correlation with the technical means programmed in each phase. CR1.9 Computer programs used in the planning of thermal solar installations projects are used to sequence and organize the execution of the work.

RP2: Organize and control the phase of reimagining, planning and assembly of thermal solar installation structures, according to the established schedule, making the corresponding adaptations from the possible contingencies that may arise.

CR2.1 The repose of the work is organized and developed contrasting the data of the project on the ground and monitoring the general marking of the installation and, if necessary, the necessary modifications.

CR2.2 The installation mount schedule is interpreted and used to raise the organization of the job on each of the parts of the installation. CR2.3 The work of the different people and guilds involved in the work is coordinated by ensuring that the objectives are met according to criteria of effectiveness, efficiency, quality and safety. CR2.4 The information necessary to mount the thermal solar installations is transmitted and communicated to the workers in a clear way, ensuring that the instructions given are sufficient and precise, avoiding errors in the interpretation and allowing the operators to prepare the materials, as well as to carry out the works with efficiency, safety and quality. CR2.5 The displacement of resistant structures, equipment and other necessary materials is organized and monitored according to the project specifications. CR2.6 The placement of resistant structures is organized and supervised according to the project specifications, especially guarding the waterproofing of the building.

RP3: Organize and control the different phases of the solar thermal installation, according to the established schedule, making the corresponding adaptations based on the possible contingencies that may be possible originate.

CR3.1 The placement of sensors, and laying of pipes is organized and monitored according to the project specifications.

CR3.2 The interconnection of deposits, exchangers, pipes, pumps and other hydraulic elements, is monitored, ensuring fidelity to the project and the quality in its execution. CR3.3 The assembly and connection of the electrical installation and the control devices is organized and supervised, assuring the fidelity to the project and the quality in its execution. CR3.4 Hydraulic connection with conventional support and auxiliary facilities is organized and supervised, ensuring fidelity to the project and quality in its execution. CR3.5 The assembly of the protection against corrosion, oxidation and mechanical impacts and thermal insulation of the pipes and elements is monitored according to the specifications of the project.

RP4: Organize and control the sourcing and supply of materials to the work according to established procedures in the company and ensuring compliance with the implementing regulations.

CR4.1 The selection of the necessary equipment, tools, and other technical resources is monitored at each stage of the installation assembly.

CR4.2 The supply of the various materials with respect to their delivery times, supply conditions and storage and distribution management, coordinates, controls and monitors, according to the specifications and rules stipulated. CR4.3 The quality specifications of materials and other technical resources required for the installation are verified in accordance with the relevant requirements and standards. CR4.4 The technical specifications of quality in the execution of the installation of the installation are controlled and monitored, checking that they conform to the established standards. CR4.5 The 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 elevation required and in conditions of safety. CR4.6 The tools, machinery and auxiliary media are organized and maintained for execution with maximum safety and performance.

RP5: Perform and monitor the safety, performance, and testing of thermal solar installations, adjusting equipment and control and control elements, and ensuring operating conditions established.

CR5.1 The test plan for the commissioning of the solar thermal installation is organized and monitored, ensuring the performance of the regulatory and operational safety tests required by the installation and coordinating the procedures to be followed and their sequence.

CR5.2 All tests performed on the premises meet the regulatory requirements ensuring that the values obtained are in line with those required by the different regulations. CR5.3 The adjustment of the elements of security, protection and control of operation of the system is coordinated and monitored, ensuring that it is carried out according to the specified and with the requirements of the process guaranteeing the balance of the hydraulic circuits. CR5.4 The emergency and alarm systems are monitored, checking that they respond to the situations of contingencies established and in the required conditions of effectiveness. CR5.5 The operation and maintenance manuals are monitored and provided to the user.

RP6: Organize and control the execution of the safety and health plan in the assembly operations of thermal solar installations, guaranteeing the integrity of the people, the media and their surroundings.

CR6.1 The safety plan for the installation of the solar thermal installation is interpreted, planning the material resources necessary for its development.

CR6.2 The planning of the installation assembly work is done according to the requirements of the safety plan, moving, to the different operators under their command, the necessary training or information concerning to the requirements of the safety plan. CR6.3 The professional risks arising from the installation of the solar thermal installation are identified and controlled, managing the deployment and ideal location of security infrastructures, as well as the use, operation and state of conservation of security and personal protection equipment. CR6.4 The use, operation and conservation status of machinery, vehicles, tools and other technical means used in the installation are controlled, checking that they are in perfect state of use. CR6.5 The emergency plan related to the installation assembly process is managed, paralyzing the work when the safety measures are not met or there is a risk to the people. CR6.6 Environmental risks are assessed and controlled to avoid or reduce them to the minimum possible levels, while respecting the rules of application.

RP7: Manage documentation related to thermal solar installation assembly processes, ensuring compliance with legal requirements and the application of organizational criteria established by the company.

CR7.1 Project documents, symbolic schemes, lists of materials, operating manuals and other technical documents are managed in accordance with the requirements of the company and the organisational criteria for clarity and control.

CR7.2 Work parts, albarans, invoices, control for certifications, and other administrative documents are organized and controlled during the installation assembly process. CR7.3 The topography documents, the systems of protection against the legionela, the taking of data for the settlement and the variations, with respect to the project, in the technical specifications of elements, are controlled and collected to constitute the documentary basis of the work. CR7.4 The documentation related to the necessary official permits in the work is managed in the face of possible legalizations, grants and inspections.

Professional context:

Production means: Use and measurement tools: thermometers, gauges, flow meters, counters, flexometer, marking tools, polymeter, insulation meter. Hand tools: arcing saw, screwdrivers, fixed keys, pliers, peelable, welder, scissors, cutouts, limes, drilling machine, electric screw, riveting, bending, screwing, welding equipment and hoisting tools. Safety equipment. Plant components: collectors, exchangers, expansion tanks, accumulation tanks, pumps, circulators, pipes, valves, purgators, thermostats, presostats, probes, resistors, motors, pipes, conductors, electrovalves, measuring equipment, control equipment.

Products and results:

Capers, equipment and hydraulic circuits of installed and connected thermal solar installations. Hydraulic connection of the installation with other support systems. Electrical circuits and equipment for installed and connected thermal solar installations. Electrical connection of the installation with other support systems.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; assembly programmes, parts of work; technical specifications; catalogues; service manuals and use; instructions for assembly and operation; UNE standards, Building Thermal Facilities Regulation, Low Tension Electrotechnical Regulation, safety regulations, municipal ordinances and building codes.

Competition Unit 4: Organize and control the maintenance of thermal solar installations

Level: 3.

Code: UC0848_3.

Professional realizations and performance criteria: RP1: Organize and control the different maneuvers and adjustment operations in the thermal solar installations for the optimization of its operation. CR1.1 The signals and data obtained, directly or through telecontrol and telemando systems, are interpreted to optimize the operation of the installation through adjustment operations.

CR1.2 The performance of the different types of maneuvers and settings in the installation are determined, reported and controlled. CR1.3 The operating and stopping manoeuvres of thermal solar installations are controlled and monitored according to the requirements of quality, efficiency and safety. CR1.4 The seasonal adjustment and adaptation operations of installations, related to the climatic variations, are controlled and monitored according to the requirements of quality, efficiency and safety. CR1.5 The safety measures required in the manoeuvres are controlled and monitored, guaranteeing the control of the risk to the people, the environment and the electrical and hydraulic circuits themselves. CR1.6 The results of the exercises and tuning operations are analyzed to draw conclusions about the optimization of the performance and the safety of the installation.

RP2: Develop, apply and improve the maintenance plans of thermal solar installations.

CR2.1 The technical information provided by equipment manufacturers and elements used in solar thermal installations is used in the production of maintenance programs.

CR2.2 The company's own maintenance manuals, in line with the regulations and application ordinances, are prepared and maintained up to date. CR2.3 The definition of tasks, procedures and methods of intervention and disassembly/assembly, health check ranges, times and the human and material resources necessary for its execution in the time and cost envisaged are assured that they are contained in the installation maintenance program. CR2.4 Quality control criteria are set for the different stages in which maintenance is organised. CR2.5 The critical points of the facilities that involve higher risk of over-temperature, frost, lack of energy supply or modification of the normal parameters, are considered in the elaboration of the maintenance programs. CR2.6 The established maintenance programs optimize the own resources, determine the needs of external support and guarantee the fulfillment of the production objectives. CR2.7 The procedures used in preventive and corrective maintenance are regularly updated, incorporating the improvements detected. CR2.8 Continuous improvement of maintenance management plans, testing of new techniques, participation in the process of fiabilization of new products used in the facilities, are carried out and monitored.

RP3: Organize and monitor processes and procedures for preventive and corrective maintenance of thermal solar installations.

CR3.1 The organization and supervision of the maintenance and repair of the facilities is performed using the documentation received and generated, technical and administrative.

CR3.2 The diagnosis of the failure and/or failure of the equipment, element or system of the solar thermal installation, is monitored and controlled, applying techniques of analysis of the data taken to carry out the assessment, technical information of operation and history of the installation. CR3.3 The specifications of the different materials and equipment used in the maintenance of thermal solar installations are elaborated for the management of their acquisition. CR3.4 The stock of warehouse materials and systems for distribution is organized, managed and controlled under the premises of efficiency, efficiency and maximum quality. CR3.5 The available human resources, machinery, tools, mobile parks, communication systems and other elements necessary for the implementation of the different types of maintenance, are coordinated and controlled under the premises of efficiency, efficiency and with the highest quality. CR3.6 The process of reviewing the sensors, pipes, tanks, exchangers, electrical equipment, probes, purgators, presostats, and other elements submitted to review campaigns, are organized and controlled with the objective of Most maintenance is of a preventive type. CR3.7 The monitoring of maintenance is carried out by controlling the quality of its execution and the costs, obtaining the necessary control indicators to establish the benchmarks that profile the most convenient lines of action and solving the contingencies with maximum efficiency and meeting the programmed objectives. CR3.8 The data obtained from the revisions or modifications of the facilities, are controlled and collected, in order to maintain the information systems and databases updated. CR3.9 The management of the control sheets of the periodic maintenance of the different elements, as well as the elaboration of the historical database are carried out using appropriate technological systems. CR3.10 The attention to warnings and complaints for problems or failures in the installation is managed with the highest efficiency and quality.

RP4: Organize and control the application of the standards and measures of risk prevention, safety, health and environmental in the maintenance of thermal solar installations.

CR4.1 The professional risks arising from maintenance intervention are identified and controlled, applying the safety plan in maintenance.

CR4.2 The management, deployment, and location of the security and health infrastructures of the installation, are developed, monitored, and controlled. CR4.3 The use, operation and conservation status of the safety and personal protection equipment used in maintenance work is monitored. CR4.4 The use, operation and conservation status of machinery, vehicles, tools and other equipment used in the work is monitored from the point of view of safety. CR4.5 The emergency plan related to the installation maintenance process is managed. CR4.6 Environmental risks are assessed and controlled to avoid or reduce them at all times.

RP5: Control and monitor documentation related to the operation and maintenance processes of solar thermal energy installations.

CR5.1 Work parties, albarans, invoices, orders, and other administrative documents are organized and controlled within the maintenance process.

CR5.2 Customer demands are recorded, transmitted and handled with the utmost speed. CR5.3 The administrative procedures and quality management systems in the maintenance are applied and monitored for execution. CR5.4 Inventories are reviewed, updated and managed, controlling information related to high, low, and repairs. CR5.5 The maintenance of mobile parks, tools, machinery, communication systems and other equipment, is controlled and monitored. CR5.6 The management computing systems used in the processes of operation and maintenance of thermal solar installations are monitored, verifying that they conform to the established operating parameters.

Professional context:

Production means: Use and measurement tools: thermometers, gauges, flow meters, meters, meter, insulation meter, flexometer, marking tools. Hand tools: arcing saw, screwdrivers, fixed keys, pliers, peelable, welder, riveting, cutting, curving, scissors, screwing, limes, drilling machine, electric screwdriver, welding equipment. Safety equipment. Plant components: thermostats, presostats, probes, sensors, exchangers, expansion tanks, accumulation tanks, pipes, valves, purgators, resistors, motors, pumps, circulators, electric frames, channelings, conductors, electrovalves, measuring equipment, control equipment.

Products and results:

Thermal solar installation in correct maintenance state. Solar thermal installation repaired. Repaired, electrical and hydraulic components or components. Documented maintenance operations.

Information used or generated:

Projects, assembly and cutting planes; isometric planes; schemes and diagrams of principle; listing of parts and components; maintenance procedures, maintenance programs, maintenance history, parts of work; technical specifications; catalogues; service and use manuals; operating instructions; databases; computer programs; UNE standards; Building Thermal Facilities Regulation; Low Voltage, safety regulations, municipal ordinances and codes of building.

Training Module 1: Feasibility Studies of Solar Facilities

Level: 3.

Code: MF0842_3. Associated with UC: Determine the feasibility of solar installations projects. Duration: 120 hours.

Assessment Capabilities and Criteria:

C1: Classify, quantify and analyze the energy needs of different types of users in order to diagnose the possibility of performing a solar installation. CE1.1 In a practical case, duly characterized, of a building with several houses in which there is demand for electrical and thermal energy for hot water and heating:-to specify the ways of life and services required.

-Quantify electrical energy for lighting and strength, and for general community services. -Quantify the electrical energy for lighting and other uses in each of the housing typologies. -To describe seasonal variability, times of electrical consumption and the concurrency factor. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify the thermal energy for each dwelling and for all of them, analyzing the seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

CE1.2 In a practical case, sufficiently characterized, of a single-family dwelling in which there is demand for electrical and thermal energy for hot water, heating and cooling:

-Detailed the required uses and services.

-Quantify electrical energy for lighting, strength and for other uses. -To describe seasonal variability and times of electrical consumption. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify thermal energy and detail seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

CE1.3 In a practical case, perfectly characterized, of a swimming pool heated by thermal solar energy, with support system:

-Detailed the required uses and services.

-Quantify electrical energy for lighting, strength and for other uses. -To describe seasonal variability and times of electrical consumption. -Determine the nominal electrical power of reference and the electrical parameters derived. -Quantify thermal energy and describe seasonal and daily variability. -Define the possibilities of supply of different energies: electricity, natural gas, or other fuels. -To study and specify the possibilities, techniques and legal, to perform a solar energy installation. -Formalize a document in which the results obtained in the studies of energy consumption are reflected.

C2: Define the solar potential in a given area for the realization of solar installations, using suitable means and complying with the standards and regulations required.

CE2.1 Determine the parameters of solar radiation in a given location for which there are elaborate tables that allow to obtain directly the values sought.

CE2.2 Determine the parameters of solar radiation at a given site for which there are elaborate tables to interpret and correlate different results to make a reasonable estimate. CE2.3 To explain globally the most common models in the empirical determination of the different types of solar radiation. CE2.4 Measure and record solar radiation data through the use of the pyrometer, pirheliometer, and other usual recording devices. CE2.5 To determine, for a given site and surface, the possibilities of performing a solar thermal and/or photovoltaic installation, reasoning the potential and possible energy use.

C3: Develop proposals for solar installations, aimed at clients, in which the characteristics of the installation and the analysis of the applicable regulatory and grant framework are collected.

CE3.1 To study and assess energy needs and justify the use of solar thermal and/or photovoltaic energy.

CE3.2 Razonar, in the case of solar installations, the ideal location for the catchers, panels and for the different teams attending to the conditions of shade, obstacles and other determining factors in the Solar exploitation, studying the aesthetic and visual factors associated. CE3.3 Razonar, in the case of thermal solar installations, the characteristics of the different elements and components of the circuits of the installation. CE3.4 Razonar, in the case of photovoltaic solar installations, the characteristics of the different elements and components of the circuits of the installation. CE3.5 Report and review the regulatory framework related to the authorisation of the installation and the requirements arising from it. CE3.6 Report and review the legal framework for possible grants to the facility and the requirements arising from it. CE3.7 Make an indicative budget of a solar thermal installation in which the site, scheme of principle and the costs and savings provided are detailed. CE3.8 To carry out an indicative budget of a photovoltaic solar installation in which the site, scheme of principle and the costs and savings provided are detailed. CE3.9 To draft the formalized document with the proposal of realization of the thermal solar installation using computer tools with applications of general purpose. Capacities whose acquisition must be completed in a real working environment: C3 with respect to CE3.7, CE3.8 and CE3.9.

Other capabilities:

Communicate effectively with clients.

Have an initiative to promote projects. Ability to adapt to the context and needs of people.

Contents:

1. Fundamentals of solar energy. The Sun as a source of energy. The Sun and the Earth.

Conversion of solar energy. The accumulation of energy. Integrated energy systems.

2. Location and feasibility of solar energy installations.

Energy needs. Calculation.

Solar potential of an area. Measurement tables and systems. Site factors. Orientation, inclination and shadows. Architectural and structural systems. Architectural integration. Feasibility. Economic and financial factors.

3. Solar thermal energy.

Classification of thermal solar installations. Global operation. Solar catchers. Operation, constitution and connection. Elements of a solar thermal installation and specifications: sensors, primary and secondary circuits, exchangers, accumulation tanks, expansion tanks, circulation pumps, pipes, purgators, flow meters, valves and elements of regulation and control. Solar cooling systems. Implementing rules.

4. Photovoltaic solar energy.

Classification of photovoltaic solar installations. Global operation.

Solar Panels. Operation, constitution and connection. Elements of a solar photovoltaic installation connected to a network and specifications. Solar tracking systems. Elements of an isolated solar installation and specifications. Energy systems for support and accumulation. Solar cooling. Implementing rules.

5. Promotion of solar installations.

Promotion of renewable energy. Energy models and policies.

International, national and regional context of solar energy. Economic and financial studies of solar installations. Technical Building Code. Municipal ordinances and implementing rules. Regulatory framework for grants. Legislation and calls.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

Professional trainer profile:

1. Domain of knowledge and techniques related to the determination of the feasibility of solar installations projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training Module 2: Thermal Solar Facility Projects

Level: 3.

Code: MF0846_3. Associated with UC: Develop thermal solar facility projects. Duration: 240 hours.

Assessment Capabilities and Criteria:

C1: Analyze the different typologies of thermal solar installations, selecting those adapted to the constructive characteristics, the energy needs of the user and the rules of application. CE1.1 List the main rules and regulations for the application of thermal solar installations.

CE1.2 Describe the characteristics of the different solutions of installations in multifamily building with centralized solar accumulation. CE1.3 Describe the characteristics of the different solutions of facilities in multifamily building with individual and mixed solar accumulation. CE1.4 To describe the characteristics of the different solutions of thermal solar installations in single-family building. CE1.5 In a practical case of a solar thermal installation for multifamily building:

-Describe the functions of the different elements of the installation.

-Identify and select technical, administrative and quality regulations, whether or not they are enforced, affecting the development of the project. -Determine the documentation to be developed according to the regulatory requirements. -To draw up a report on the required requirements: technical specifications, characteristics of materials, regulations and regulations, security required.

CE1.6 In a practical case of a solar thermal installation for single-family building:

-Describe the functions of the different elements of the installation.

-Identify and select technical, administrative and quality regulations, whether or not they are enforced, affecting the development of the project. -Determine the documentation to be developed according to the regulatory requirements. -To draw up a report on the required requirements: technical specifications, characteristics of materials, regulations and regulations, security required.

C2: Determine the different elements that integrate thermal solar installations, using established means and complying with the required standards and regulations.

CE2.1 Perform energy balance calculations of solar thermal installations based on the climatological data and taking into account the expected daily and seasonal consumption, the contributions of the support facilities and the efficiency of the set of the installation.

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 calculation programs computerised. CE2.3 In a practical case of a single-user compact thermal solar installation:

-Identify the constituent elements of the installation.

-Perform or complete the schemas of the different parts of the installation. -Determine the characteristics of the different elements of the installation. -Select from the commercial catalogues, the different equipment and materials from the defined characteristics. -To dimension the supports, benches and other elements subject to mechanical requests.

CE2.4 In a scenario of a solar thermal installation of a building with several dwellings:

-Identify the constituent elements of the installation.

-Perform or complete the schemas of the different parts of the installation. -Determine the characteristics of the different elements of the installation. -Select from the commercial catalogues, the different equipment and materials from the defined characteristics. -To dimension the supports, benches and other elements subject to mechanical requests.

C3: Draw, in the appropriate support, the plans, principles of operation, general schemes and details that make up the graphical documentation of the project of assembly of the solar thermal installation.

CE3.1 In a practical case of a solar thermal installation:-Choose the most appropriate graphical representation system.

-Select the rules to be used in the graphical representation. -Select the most suitable tools, supports and formats for the realization of the plane. -Identify and name each of the different plans of the project. -To welcome the plans in a clear and concise way.

C4: Develop memories, budgets and other technical documentation of the project required for the assembly, maintenance and use of the solar thermal installation.

CE4.1 Formalize the technical document with the calculations and justifications of the different parts of the solar thermal installation.

CE4.2 Perform facility budgets detailing the different concepts of expenditure and analyze grant possibilities and amortization forecasts. CE4.3 Draw up the schemes for the assembly of the elements of the project, in particular with regard to the dimensional and orientation calculations. CE4.4 Perform the operating manual in which they are included: instructions for installation, commissioning, use and maintenance, with their corresponding schemes. CE4.5 Compose and assemble, in order, the project documents and the technical dossier, obtaining a suitable presentation.

C5: Develop safety and health plans for the assembly of thermal solar installations.

CE5.1 Define the risks derived from falls, in the same or different level, entrapments and falls of objects.

CE5.2 Define the thermal risks originating from the solar installation. CE5.3 Define the electrical risks associated with external circuits, high temperature and other extreme conditions. CE5.4 Detail the emergency plans to be implemented in the assembly of thermal solar installations. CE5.5 Formalize and document emergency plans to be implemented in the assembly of thermal solar installations. CE5.6 To describe the environmental conditions present in the assembly of thermal solar installations.

C6: Develop the documentation of the file necessary for the administrative authorization and for obtaining, where appropriate, the corresponding grants.

CE6.1 Describe the administrative processes that follow the case for installation authorization.

CE6.2 Perform the necessary documents for the administrative authority of the installation. CE6.3 Describe the administrative processes that follow the file for obtaining grants. CE6.4 To draw up the reports and other documents in the grant file. CE6.5 In a practical case of a solar thermal installation, characterized by the technical and architectural solutions already raised:

-Define the rules and procedures required to get the installation authorization.

-Define the possible legal framework for obtaining a grant and determine the requirements and the process to be followed in your application. -To carry out a study of the depreciation of the installation, establishing reasonable assumptions of energy consumption, installation operation, solar climatology and energy price.

Capabilities whose acquisition must be completed in a real work environment:

Other capabilities: Demonstrate a good professional.

Awareness of the transcendence of calculations and designs for security, operation and cost.

Contents:

1. Thermal installations in buildings. Basic concepts and measures.

Heating and production facilities and equipment for hot water. Air conditioning installations and equipment. Carrier fluid transport networks. Diffuser elements. Regulation, control and measurement of consumption in thermal installations. Thermal facility assembly processes. Testing and commissioning of thermal installations. Maintenance and operation of thermal installations. Technical documentation of thermal installations: Technical memory. Regulation of thermal installations in buildings and other implementing rules.

2. Projects in thermal solar installations.

Needs to 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 documents, plans, specifications, budgets. Safety plan.

3. Calculation of thermal solar installations.

More important variables and calculation factors. Methods used.

Simplified calculation of sanitary hot water installations. Number of catchers. Calculation of heated swimming pools by solar energy. Simplified calculation of heating and cooling. Calculation of support energy systems. Computer software for calculation.

4. Design and representation of thermal solar installations.

Design of electrical and hydraulic circuits.

Hydraulic circuit planes. Drawings of the electrical schemes. Drawings of the necessary civil work. Drawings of details. Mounting planes of the different elements of the installation. Software for assisted design.

5. Integration of thermal solar installations.

Aesthetics and architectural integration.

Solar energy by radiant floor. Integration of solar installations. Passive solar architecture. Conventional energy and solar energy. Distributed systems of solar thermal energy.

6. Administrative processes in thermal solar installations.

Regulatory framework for grants. Legislation and calls.

Subsidy processing. Technical and administrative documentation. Promotion and management of facilities. Submission of tenders.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-Workshop of thermal solar installations of 150 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the development of solar thermal installations projects, which will be accredited by one of the following forms:-Academic training of Technical Engineer or others of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 3: Organization and control of the assembly of thermal solar installations

Level: 3.

Code: MF0847_3. Associated with the UC: Organize and control the assembly of thermal solar installations. Duration: 120 hours. Assessment capabilities and criteria:

C1: Analyze, interpret and manage the technical documentation of thermal solar installations for the organization of the assembly process. CE1.1 Describe the different documents that make up a project, technical memory or a manual of assembly of a solar thermal installation distinguishing the communicative functions of the planes that compose it and interpreting the elements of technical standardisation.

CE1.2 Describe the general phases of the development of a process for mounting a solar thermal installation, identifying the technical phases of the installation of the solar thermal installation from time to time. CE1.3 Represent symbolic schemes, sketches and isometric diagrams of a solar thermal installation and its components to facilitate its mechanical and electrical assembly. CE1.4 to handle and interpret graphical information of thermal solar installations elaborated in computer systems of representation by performing copying or modification of data, through standardized procedures, corresponding to specific programmes for the design and representation of thermal solar installations. CE1.5 To describe the fundamental requirements of the regulations and rules applicable to this type of plant: municipal ordinances, regulations of thermal installations, electrical regulations, safety regulations, regulations of quality and environmental regulations. CE1.6 Fill in the technical and administrative documentation related to the installation of the installation, classifying the different documents according to the type and the management process that they must follow. CE1.7 In a practical case of a solar thermal installation characterized by the drawings and the corresponding technical documentation:

-Identify the different components of the installation, locating their placement.

-Specify the characteristics of each of the elements that compose it: collectors, exchangers, accumulation deposits, circulators, pipes, measuring equipment, control equipment. -Relate the composition and characteristics of the thermal solar installation to the regulatory requirements that apply to it. -Razon the operation of the installation, describing the function, structure and composition of the different parts that configure it. -List and describe the installation management documents associated with the installation.

C2: Develop provisioning programs for the assembly of thermal solar installations.

CE2.1 Use the technical and administrative information derived from the technical project, to develop procurement programs for the assembly according to methods used in strategic planning.

CE2.2 Perform the provisioning plan by coordinating the assembly plan with the possibilities of provisioning and storage, guaranteeing the supply at the appropriate time. CE2.3 Define and develop the quality control criteria in the different stages that make up the supply. CE2.4 Design the provisioning of security systems and equipment in the assembly. CE2.5 In a practical case of a solar thermal installation for multifamily building characterized by the installation plans and commissioning manuals:

-Determine the technical prescriptions required for the components.

-Determine the criteria for quality control in the receipt of components. -Manage the logistics of sourcing materials and equipment.

C3: Develop work plans for the assembly of thermal solar installations according to the corresponding project and the established working procedures.

CE3.1 Describe the different techniques to be used in the assembly processes of thermal solar installations: assembly, bolting, leveling, riveting, welding, anchoring, connection.

CE3.2 Relate the human resources involved in the different phases of the assembly operations of thermal solar installations. CE3.3 Describe the assembly job optimization procedures. CE3.4 Represent the schemes of organization of work and control of times in the assembly of thermal solar installations by means of diagrams and timetables appropriate to their level. CE3.5 Raise the installation service and define the different tests to be performed. CE3.6 Describe and assess the implementation of the safety and health plan in the installation. CE3.7 In a work plan for the assembly corresponding to a solar thermal installation for multifamily building characterized by the installation plans and commissioning manuals:

-Determine the requirements of the work zones in the different phases of the assembly.

-Select the materials, tools, and other technical resources required to perform the work. -Determine the human resources required in the different phases. -To determine the adequacy of the components to the technical prescriptions and to produce a report of disconformities. -Determine the sequence of assembly by a flujogram. -Define the assembly techniques in the key points of the installation. -Determine the tests and operations for putting into service. -Determine the corrective measures to be taken in anticipation of possible deviations in relation to the plan of the work. -Raise the implementation of the security plan.

C4: Justify the constructive solutions of the resistant structures that are necessary in the solar thermal installation and control the general assembly operations from the technical documentation, applying standard procedures, relevant regulations and acting under security rules.

CE4.1 Repose the general project of the installation and compare the data and plans of the project with the reality of the terrain and/or buildings involved.

CE4.2 Determine the different types of efforts that the structural elements of the installation are subjected to, assessing the adaptation of the geometry of the structure to the same. CE4.3 Perform simple calculations to determine the dimensions of new elements required in the reimagining of the work and that have not been determined in the project or memory. CE4.4 Select, from technical catalogues, the resistant, fastening and anchoring systems that are necessary in the assembly of structures, choosing the most appropriate according to the characteristics of the installation, the environmental environment, of the land or the building. CE4.5 Given a practical case or actual installation, from the project or memory, in which the design of the resistant structure of a solar thermal installation is detailed:

-Determine the degree of adequacy of the solution to the reality of the terrain.

-Define unspecified constructive detail solutions. -Calculate the dimensions of the hardware, braces and other necessary resistant elements. -To determine the most problematic points from the point of view of the efforts they are subjected to. -Choose the most appropriate anchoring and fastening system. -To detail the consequences of the rupture or failure of critical resistant structures and to propose possible reinforcement solutions in those situations that are more serious for people or things. -Review the assembly operations of the structures.

C5: Control the general assembly operations from the technical documentation, applying standard procedures, corresponding regulations and acting under security rules.

CE5.1 Describe the control operations of the assembly and connection of thermal solar sensors.

CE5.2 Describe the control operations of the assembly and connection of the energy storage/accumulation systems. CE5.3 Describe the control operations of the assembly and connection of the interchangers, circulators and their interconnection pipes. CE5.4 Justify the requirements for assembly and integration of the support facilities with the solar thermal installation, describing the control points for the case of a gas boiler. CE5.5 To explain the supervisory tasks related to electrical equipment and installations for protection, regulation and control. CE5.6 Select, from technical catalogues, the additional elements and equipment not defined in the project or memory, choosing the most appropriate.

C6: Define the quality criteria in the operations of assembly and commissioning of thermal solar installations from the technical documentation, applying standard procedures, corresponding regulations and acting under security rules.

CE6.1 Define the required requirements for the preparation of the work area according to the requirements of the work, identifying the specific occupational risks and proposing its measures corrective.

CE6.2 Make plans for the displacement of equipment and materials and their location in the ideal place for the work to be done, under security conditions. CE6.3 Define the critical monitoring points of the assembly of the sensors to ensure their integrity and tightness. CE6.4 Define the criteria for alignment, orientation and inclination in the placement of catchers. CE6.5 Define the criteria for monitoring the assembly of pipes and hydraulic elements by verifying possible dilations and ensuring their tightness. CE6.6 To describe the quality criteria in the completion of the electrical power and control installation, according to established procedures and application regulations. Capacities whose acquisition must be completed in a real working environment: C1 with respect to CE1.7; C4 with respect to CE4.5.

Other capabilities:

Take responsibility for the work you develop, meeting the objectives and deadlines set.

Participate and actively collaborate on the work team. Ensure safety at work.

Contents:

1. Organization of the assembly of thermal solar installations. Organization and preparation of the assembly. Strategic planning techniques.

Methodological specifications for the assembly of sensors, exchangers and hydraulic equipment. Documentation of the materials. Machinery and equipment used in the assembly. Fundamental requirements of the implementing regulations: municipal ordinances, regulations of thermal installations, electrical regulations, safety regulations, quality regulations and environmental regulations.

2. Resistant structures in solar installations.

Types of efforts.

Resistant structures. Geometry and basic calculations. Wind and snow stocks. Anchoring systems. Structure mounting techniques.

3. Control of the assembly of thermal solar installations.

Procedures and operations for preparing and reposing facilities.

Civil work: displacement and lifting of materials and equipment. Determination and selection of equipment and elements necessary for the assembly from the installation plans. Adaptation and improvement of facilities. Assembly, settling, alignment and fastening techniques and operations. Assembly of the different elements of a solar thermal installation. Quality in the assembly. Specifications for technical requirements. Technical documentation of the work. Reports.

4. Commissioning of thermal solar installations.

Organization of hydraulic tests.

Tuning control circuits. Control of critical points. Interconnection of the support facility. Technical documentation related to the operation.

5. Safety plan in the assembly of thermal solar installations.

General security measures.

Managing security on load-lifting. Management of security in the face of risks of electrical origin. Management of safety in the face of risks of thermal origin. Prevention and environmental protection. Emergency management. Communication systems. Training context parameters: Spaces and facilities:

-Multi-purpose of a minimum of 2 m2 per pupil.

-Workshop of thermal solar installations of 150 m2. -Outer surface for solar thermal installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the organization and control of the assembly of thermal solar installations, which will be accredited by one of the following forms. -Academic training of Technical Engineer or others of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent authorities.

Training module 4: Organization and control of maintenance of thermal solar installations

Level: 3.

Code: MF0848_3. Associated with the UC: Organize and control the maintenance of thermal solar installations. Duration: 90 hours.

Assessment Capabilities and Criteria:

C1: Analyze the technical documentation of thermal solar installations by determining the activities and resources to plan the maintenance process. CE1.1 To describe the technical documentation related to the thermal solar installation, necessary to carry out the planning of its maintenance.

CE1.2 Identify, in the project or maintenance plan, the equipment and elements of the thermal solar installations in order to plan the maintenance. CE1.3 Determine the critical points of a solar thermal installation in which breakdowns can occur, their causes and the functional consequences and for the safety of the same. CE1.4 In a practical case, starting from the manual of maintenance instructions, plans, schemes and other technical documents:

-Determine the operations to be performed on the installation maintenance.

-Determine the type of human and material resources required to perform preventive maintenance operations. -Determine the type of human and material resources needed to perform the most common corrective maintenance interventions.

C2: Develop the written procedures of the maintenance operations of thermal solar installations, determining the tasks, materials, means and criteria for the control of the execution.

CE2.1 Select, from among the set of preventive maintenance operations of a solar thermal installation, those that require written procedures, justifying their selection.

CE2.2 Compose the procedure to be followed for the detection of the most common faults in the different types of installations. CE2.3 Develop specifications of different materials to manage their acquisition in the maintenance process. CE2.4 Explain the monitoring tasks related to the procurement of supplies and stock control. CE2.5 Compose the usual preventive maintenance procedures in the different types of facilities. CE2.6 Describe the safety plan in the maintenance process and determine the means and safety equipment to be taken into account for the performance of the repair, generating the necessary technical documentation in the process of intervention. CE2.7 In the procedure for the application of preventive and corrective maintenance, in which the different types of parts or equipment are replaced, with the help of the technical documentation:

-Set the order or sequence of the disassembly and mounting tasks, detailing previous security-related operations.

-Define the specifications of the operations to be performed. -To describe the technique to be used in the various tasks, establishing the necessary materials, means, tools, times and human resources. -To raise the requirements and tasks concerning the security of the operation.

C3: Apply programming techniques that optimize resources to develop intervention and maintenance monitoring programs.

CE3.1 Explain the different programming techniques of preventive maintenance and the requirements that must be met in each one.

CE3.2 Razor the characteristics of the workload chart. CE3.3 Reasoning the organisation, performance and implementation of a software for the management and control of maintenance. CE3.4 Detail the operation of the tele-control and telematic systems of thermal solar installations. CE3.5 Explain the different components of maintenance costs and systems to optimize them. CE3.6 In a practical case for the development of a maintenance plan for one or more thermal solar installations:

-Determine the types of intervention and timing.

-Establish the human resources and material resources necessary for the maintenance of the human resources. -Develop the ratio of spare parts and consumable products that are necessary for this period. -Perform an annual maintenance budget, breaking down the cost into its components: spare parts, unplanned stops, labor, travel, taxes and other associated expenses.

C4: Control the general maintenance operations in thermal solar installations from the technical documentation, applying standard procedures, corresponding regulations and acting under security.

CE4.1 Describe the maintenance and repair operations of the media, anchorages and other structural components of the thermal solar installations.

CE4.2 Describe the maintenance and repair operations of the sensors, pipes, tanks, exchangers, and other hydraulic components. CE4.3 Describe maintenance and repair operations in electrical, electronic and control systems. CE4.4 Identify critical points in the maintenance of thermal solar installations. CE4.5 Identify the operations to be controlled when preventive maintenance and repair of thermal solar installations are performed. CE4.6 Describe the procedures for putting into service a solar thermal installation once it has been repaired or the maintenance operations have been carried out. CE4.7 In practical cases of carrying out checks or preventive maintenance operations and repairs in thermal solar installations:

-Verify that the fault and possible causes to which it obeys have been identified.

-Check that the operations to be performed are the ones required and the means to perform them are the appropriate ones. -Select in catalogues if necessary, the additional elements and equipment not defined in the project or memory, choosing the most suitable ones. -Supervise that the performance of the operations of both verification and repair is in accordance with the established working procedures. -Check that security measures are observed in the performance of all operations. -Supervise the commissioning of the solar thermal installation.

Capabilities whose acquisition must be completed in a real working environment: C3 with respect to CE3.6; C4 with respect to CE4.7. Other capabilities:

Communication capacity to clients.

Resolvable capacity. Skills in conflict resolution. Ensure safety at work.

Contents:

1. Organisation of the maintenance of thermal solar installations. Maintenance. Function, objectives and types. Preventive and corrective maintenance.

Planning and scheduling of maintenance. Maintenance plans. Tasks of preventive maintenance. Automatic telemedide and telecontrol systems. Calculation of needs. Load planning. Determination of times. Documentation for planning and scheduling. The work order. Safety plan in the maintenance of thermal solar installations.

2. Economic management of maintenance of thermal solar installations.

The cost of maintenance. Cost analysis.

Value criteria for replacement of machines and equipment. Optimization of maintenance. Quality in service delivery. Economic and administrative documentation on maintenance. Invoices and budgets. Building book and other official documents related to registration, inspection and control.

3. Storage and maintenance materials for thermal solar installations.

Receiving and Encoding Supplies.

Organization of the warehouse. Stock management. Approval of suppliers.

4. Management of maintenance of computer-assisted thermal solar installations:

Databases. Database creation.

Corrective maintenance software. Preventive maintenance software. Management and storage of purchases. Predictive maintenance.

Training context parameters:

Spaces and facilities:-Multi-purpose of a minimum of 2 m2 per pupil.

-Workshop of thermal solar installations of 150 m2. -Outer surface for solar thermal installations of 100 m2.

Professional trainer profile:

1. Domain of knowledge and techniques related to the organization and control of the maintenance of thermal solar installations, which will be accredited by one of the following forms:-Academic training of Technical Engineer or other of higher level related to this professional field.

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

2. Accredited pedagogical competence in accordance with what is established by the competent administrations.