Key Benefits:
Law 56/2003, of 16 December, of Employment, establishes, in its article 3, that it corresponds to the Government, on a proposal of the current Ministry of Labour and Immigration, and prior report of this Ministry to the Sectoral Conference of Employment and Industrial Affairs, the elaboration and approval of the regulatory provisions in relation to, among others, occupational and continuing vocational training in the State field, as well as the development of such management.
Article 26.1 of Law 56/2003 of 16 December 2003, following the amendment by Royal Decree-Law 3/2011 of 18 February 2011 of urgent measures for the improvement of employability and reform of policies In the field of employment, it is concerned with the vocational training subsystem for employment, in which, since the entry into force of Royal Decree 395/2007 of 23 March, which regulates it, the arrangements for vocational training in the field of employment have been integrated labor-the occupational training and the continuing-. This subsystem, according to the legal provisions laid down in the Organic Law of the European Communities, of Qualifications and Vocational Training, will be carried out in the framework of the National System of Qualifications and Vocational Training. of the National Employment System.
For its part, the Organic Law of June 19, the Organic Law of 19, understands the National System of Qualifications and Vocational Training as the set of instruments and actions necessary to promote and develop the integration of offers of vocational training and the assessment and accreditation of professional skills. The main instruments of this System are the National Catalogue of Professional Qualifications and the procedure for recognition, evaluation, accreditation and registration of the same. Article 8 of the Organic Law of 19 June provides that certificates of professional competence prove the professional qualifications of those who have obtained them and that they will be issued by the competent administration, with a view to official and valid throughout the national territory. In addition, Article 10.1 indicates that the General Administration of the State, in accordance with the provisions of Article 149.1.30. and 7. of the Constitution and after consulting the General Council of Vocational Training, shall determine the qualifications and certificates of professionalism, which shall constitute the offers of vocational training referred to in the National Catalogue of Professional Qualifications.
The National Catalogue of Professional Qualifications, according to Article 3.3 of Royal Decree 1128/2003 of 5 September, which regulates the National Catalogue of Professional Qualifications, in the wording given to the By the same token, Royal Decree 1416/2005 of 25 November provides the basis for drawing up the training offer leading to the acquisition of vocational training qualifications and certificates of professionalism and the modular training offer. the cumulative associated with a competition unit, as well as other training offers adapted to collectives with specific needs. In accordance with Article 8.5 of the same royal decree, the training offer of certificates of professionalism shall be in accordance with the minimum quality indicators and requirements which guarantee the fundamental aspects of a system. training, to be established by mutual agreement between the educational and labour administrations, after consultation of the General Council for Vocational Training.
Royal Decree 34/2008 of 18 January, governing certificates of professionalism as amended by Royal Decree 1675/2010 of 10 December 2010, defines the structure and content of certificates of professionalism, from the National Catalogue of Professional Qualifications and the guidelines laid down by the European Union, and establishes that the State Employment Service, with the collaboration of the National Focal Points, will develop and update certificates of professionalism, which will be approved by royal decree.
On the other hand, in the new wording of article 11.2 of the recast text of the Law of the Workers ' Statute, introduced by Royal Decree-Law 10/2011 of 26 August, of urgent measures for the promotion of employment Young people, the promotion of stability in employment and the maintenance of the programme of vocational retraining of people who wear out their unemployment protection, the new contract for training and apprenticeship is regulated in which it is establishes that the qualification or professional competence acquired through this new figure The contract shall be accredited through, inter alia, the certificate of professionalism or the cumulative partial certification.
In this regulatory framework it is appropriate for the Government to establish three certificates of professionalism of the professional family Energy and water in the professional areas of Gas and Electrical Energy and which will be incorporated into the National Repertory certificates of professionalism by professional qualification levels in the light of the professional competence required by the production activities, as set out in Article 4.4 and in Annex II to Royal Decree 1128/2003, Cited above.
With the entry into force of this royal decree, the new certificate of professionalism "Management of the assembly and maintenance of electrical substations" which in it is established, replaces the certificate of professionalism of the occupation of Operario de networks and centres of distribution of electricity, established in Royal Decree 406/1997 of 21 March, which, consequently, is repealed.
In the process of drawing up this royal decree has issued report the General Council of Vocational Training, the General Council of the National Employment System and has been informed the Sectoral Conference of Employment and Labor.
In its virtue, on the proposal of the Minister of Labour and Immigration and after deliberation of the Council of Ministers at its meeting of 28 October 2011,
DISPONGO:
Article 1. Object and scope of application.
This royal decree aims to establish three certificates of professionalism of the professional family Energy and water that are included in the National Directory of certificates of professionalism, regulated by the Royal Decree 34/2008, of 18 January, for which certificates of professionalism are regulated, as amended by Royal Decree 1675/2010 of 10 December.
This certificate of professionalism is official and valid throughout the national territory and does not constitute a regulation of professional practice.
Article 2. Certificates of professionalism that are established.
The certificates of professionalism that are established correspond to the professional family Energy and water and are listed below, the specifications of which are described in the following annexes:
Professional family: Energy and Water.
-Annex I. Assembly, commissioning, maintenance, inspection and review of reception facilities and gas appliances. Level 2.
-Annex II. Management of the operation in hydroelectric power stations. Level 2.
-Annex III. Management of assembly and maintenance of electrical substations. Level 3.
Article 3. Structure and content.
The content of each professionalism certificate responds to the structure set out in the following sections:
(a) In paragraph I: Identification of the certificate of professionalism.
(b) In paragraph II: Professional profile of the certificate of professionalism.
(c) In paragraph III: Training of the certificate of professionalism.
(d) In paragraph IV: Prescriptions of trainers.
e) In paragraph V: Minimum requirements for spaces, facilities and equipment.
Article 4. Requirements for access to the training of certificates of professionalism.
1. The competent labour administration shall be responsible for verifying that the trainees have the training and professional qualifications to take advantage of the training in accordance with the terms set out in
following paragraphs.2. In order to qualify for the training of the training modules for certificates of professionalism in vocational qualification levels 2 and 3, students must meet one of the following requirements:
a) Be in possession of the Graduate Degree in Secondary Education Required for Level 2 or Bachelor's degree for Level 3.
b) Be in possession of a certificate of professionalism of the same level of the module or training modules and/or the certificate of professionalism to which you wish to access.
(c) Be in possession of a level 1 certificate of professionalism of the same family and professional area for level 2 or of a level 2 professionalism certificate of the same family and professional area for level 3.
d) Meet the academic requirement of access to mid-grade training cycles for level 2 or higher grade level 3, or have exceeded the corresponding access tests regulated by the administrations education.
e) Having passed the university access test for over 25 years and/or 45 years.
f) Having sufficient training or professional knowledge to enable training to be used.
Article 5. Trainers.
1. The requirements on training and professional experience for the delivery of certificates of professionalism are those set out in paragraph IV of each certificate of professionalism and must be complied with both in person and in person. distance.
2. In accordance with Article 13.3 of Royal Decree 34/2008 of 18 January, they may be recruited as experts for the provision of certain training modules specified in paragraph IV of each of the Annexes to the certificates of professionalism, qualified professionals with professional experience in the field of the unit of competence to which the module is associated.
3. In order to prove the required teaching competence, the trainer or expert must be in possession of the certificate of professionalism of occupational trainer or equivalent training in didactic training methodology for adults.
The requirement set out in the preceding paragraph will be exempt:
(a) Those who are in possession of the official university degrees of graduate in Pedagogy, Psychopedagogy or Master in any of their specialties, of a graduate degree in the field of the Psychology or Pedagogy, or an official postgraduate degree in the fields mentioned above.
b) Those who hold an official university degree other than those referred to in the preceding paragraph and who are also in possession of the Certificate of Pedagogical Aptitude or Professional Specialization Didactics and the Certificate of Pedagogical Qualification. In addition, the holders of the Master's Master's degree for the exercise of the regulated Professions of the compulsory secondary education and the secondary school, vocational training and the official schools of the Languages.
(c) Those who credit a proven teaching experience of at least 600 hours in the last seven years in vocational training for employment or the education system.
4. Trainers who provide distance training must have training and experience in this mode, in the use of information and communication technologies, as well as to meet the specific requirements set out for each of them. certificate of professionalism. To this end, the competent authorities shall develop specific programmes and actions for the training of these trainers.
Article 6. Contracts for training and learning.
The training inherent in contracts for training and apprenticeship shall be carried out, on the basis of alternance with paid employment, in the terms laid down in the regulatory development referred to in the Article 11.2.d) of the recast text of the Law of the Workers ' Statute, as drafted by Royal Decree-Law 10/2011 of 26 August, of urgent measures for the promotion of the employment of young people, the promotion of stability in employment and the maintenance of the programme for the retraining of people who have exhausted their unemployment protection.
Article 7. Distance learning.
1. Where the training module includes distance learning, it shall be carried out with didactic supports authorised by the competent labour administration to enable a system-based learning process for the participant to be met by the accessibility and design requirements for all and will necessarily be complemented with tutorial assistance.
2. Training modules which, in their entirety, are developed at a distance will require at least one final test of an in-person nature.
Article 8. Centers authorized for your partition.
1. Training centres and institutions which provide training leading to a certificate of professionalism must comply with the requirements of trainers and the minimum requirements for spaces, facilities and equipment. established in each of the training modules which constitute the certificate of professionalism.
2. The training inherent in the contracts for training and apprenticeship carried out under the scheme of alternance with paid employment shall be provided in the training centres of the network referred to in the fifth supplementary provision of the Organic Law of June 19, of the Qualifications and Vocational Training, previously recognized by the National Employment System.
Article 9. Correspondence with vocational training qualifications.
The accreditation of the units of competence obtained through the improvement of the professional modules of the vocational training qualifications will provide the effects of exemption from the module or training modules of the certificates of professionalism associated with those competition units set out in this royal decree.
Additional disposition first. Level of certificates of professionalism in the European Qualifications Framework.
Once the relationship between the national qualifications framework and the European qualifications framework is established, the corresponding level of professionalism certificates set out in this royal decree will be determined. within the European Qualifications Framework.
Additional provision second. Equivalences with previous professionalism certificates.
The equivalence to all effects of the following certificate of professionalism is declared:
| Equivalent certificate of professionalism | |
|---|---|
|
Royal Decree 406/1997, of 21 March, establishing the certificate of professionalism of the occupation of Network Operary and power distribution centers. | Managing the mount and maintenance of electrical substations. |
First transient disposition. Contracts for training in force.
The theoretical training of contracts for training agreed prior to the entry into force of Royal Decree-Law 10/2011 of 26 August, of urgent measures for the promotion of the employment of young people, the promotion of (a) stability in employment and the maintenance of the programme of vocational retraining of persons who have exhausted their unemployment protection shall be governed by the laws or regulations in force on the date on which they were concluded.
Second transient disposition. Modification of training plans and training actions.
In the training plans and in the training actions that are already approved, pursuant to Order TAS 718/2008, of 7 March, for which the Royal Decree 395/2007, of 23 March, which regulates the subsystem of the vocational training for employment, in the field of supply training and laying down the regulatory basis for the granting of public subsidies for their financing, on the date of entry into force of this royal decree, which include: training associated with the certificate of professionalism which is now being repealed, such training may be replaced which is associated with the new certificate of professionalism declared equivalent in the second additional provision, subject to the authorization of the Administration which approved it and provided that the requirements of the trainers and the minimum requirements for spaces, facilities and equipment set out in the certificate.
Transitional provision third. Low in the Specialty File.
The specialty corresponding to the certificate of professionalism repealed will cause low in the file of specialties from the nine months after the entry into force of this royal decree. During this period, this certificate shall remain valid for the purposes specified in this royal decree. In any event, the training actions linked to this certificate must be initiated before the end of the nine-month period.
Transitional disposition fourth. Request for the issue of the repealed certificates of professionalism.
1. Persons who, as provided for in the first transitional provision of Royal Decree 34/2008 of 18 January, have completed with a positive assessment the training associated with the certificate of professionalism which is hereby repealed, during the period of the same, they shall have a period of five years to request their expedition, to count from the entry into force of the present royal decree.
2. They may also apply for the issue within five years of completion with a positive assessment of the training of such a certificate of professionalism:
a) People who, having taken part of that formation during the actual decree that is now repealed, complete the same after their repeal.
b) Persons who undertake the training of this certificate of professionalism under the training plans and the training actions that are already approved at the date of entry into force of this royal decree, under the Order CAS 718/2008, dated March 7.
Transient disposition fifth. Provisional accreditation of centres.
The training centres which at the entry into force of this royal decree were included in the registers of the competent and approved administrations to provide training in the field of training corresponding to the Certificate of professionalism, which is now repealed, will be considered as provisional accredited for the purposes of the imparting of the training action linked to the certificate of professionalism established in this royal decree and declared equivalent in the second additional provision, subject to the authorisation of the competent authority . This accreditation will have effect for one year from the entry into force of this royal decree and until the finalisation, if any, of the approved training action. After this period, in order to be able to provide training aimed at obtaining the certificate of professionalism established in this royal decree, the training centres must ask the competent authorities for their accreditation, which must comply with the requirements laid down in the certificate.
Single repeal provision. Regulatory repeal.
The Royal Decree 406/1997, of 21 March, is hereby repealed, establishing the certificate of professionalism of the Operary occupation of electricity grids and distribution centers.
Final disposition first. Competence title.
This Royal Decree is dictated by the powers conferred on the State in Article 149.1.1., 7. and 30. of the Spanish Constitution, which attributes to the State exclusive competence for the regulation of the basic conditions guaranteeing the equality of all Spaniards in the exercise of rights and in the fulfilment of constitutional duties; labour law; and the regulation of conditions for obtaining, issuing and approving of academic and professional qualifications and basic standards for the development of Article 27 of the Constitution, in order to ensure compliance with the obligations of the public authorities in this field.
Final disposition second. Regulatory development.
The Minister of Labor and Immigration is authorized to dictate how many provisions are necessary for the development of this royal decree.
Final disposition third. Entry into force.
This royal decree will enter into force on the day following its publication in the "Official State Gazette".
Given in Madrid, on October 31, 2011.
JOHN CARLOS R.
The Minister of Labor and Immigration,
VALERIAN GOMEZ SANCHEZ
ANNEX I
I. IDENTIFICATION OF THE CERTIFICATE OF PROFESSIONALISM
Denomination: Assembly, commissioning, maintenance, inspection, and review of receiving facilities and gas appliances.
Code: ENAS0110
Professional family: Energy and water
Professional area: Gas
Professional qualification level: 2
Professional reference qualification:
ENA472_2 Assembly, commissioning, maintenance, inspection and review of receiving facilities and gas appliances (RD 716/2010 of 28 May)
Relationship of competency units that configure the certificate of professionalism:
UC1522_2: Perform common and individual gas receiving facilities.
UC1523_2: Perform the commissioning, inspection, and periodic review of gas receiving facilities.
UC1524_2: Perform the commissioning and adequacy of gas appliances.
UC1525_2: Maintain and repair receiving facilities and gas appliances.
UC1526_2: Prevent risks in receiving facilities and gas appliances.
General competition:
Perform the assembly, modification, extension, adequacy, inspection, commissioning, maintenance, repair and review of reception facilities and gas appliances, in accordance with the legislation in force, with the expected quality and safety conditions for persons, facilities and the environment.
Professional Environment:
Professional scope:
Develops its professional activity for its own or others, in companies of any size, fundamentally private, dedicated to the supply and distribution of gas, as well as to the assembly, operation and maintenance of installations and gas appliances, depending functionally, if any, of a superior and being able to have at his personal level lower level. Their professional activity is subject to regulation by the competent authority, responding to the qualification of the requirements laid down in the legislation in force for obtaining the professional meat of gas fitter B.
Productive Sectors:
It is located in the energy sector, subsector of supply of electrical energy, gas, steam and air conditioning, in the economic activities of gas production and distribution of gaseous fuels, and plumbing, installations of heating and air conditioning systems.
Occupations or related jobs:
7222.1011 Gas Installer.
Inspector of gas receiving facilities.
Agent for commissioning and matching of appliances to gas.
Maintenance technician of gas installations and appliances.
Requirements required for professional exercise:
For the issuance of Certificate of Facilities (Acommitted Interior, Common or Individual Receiver) as well as for the commissioning, maintenance, repair and adaptation of equipment, the natural person must belong to an Enterprise Gas installer of the appropriate category and be, likewise, Gas Installer as regulated in Royal Decree 919/2006 and its modification by Royal Decree 560/2010 within the ITC-ICG 09 "Installers and gas installers". In addition, to carry out the activities of adjusting apparatus and the operations of commissioning, maintenance and repair of gas-driven appliances (type B and C devices) of more than 24,4 kW of useful power or of glass-ceramic gas fires covered, the provisions of the aforementioned ITC in paragraph 4 shall be complied with.
Duration of the associated training: 540 hours
Relationship of training modules and training units:
MF1522_2: Gas receiving facility assembly (170 hours)
● UF1647: Documentation and legislation applicable to gas installations (30 hours)
● UF1648: Repose of gas receiving facilities (60 hours)
● UF1649: Assembly of common and individual gas receiving facilities (80 hours)
MF1523_2: Service, inspection and review of gas receiving facilities. (80 hours)
MF1524_2: Commissioning and matching of appliances to gas (80 hours)
MF1525_2: Maintenance and repair of receiving facilities and gas appliances (80 hours)
MF1526_2: Security in receiving facilities and gas appliances (50 hours)
MP0354: Non-working professional practice module for Montage, commissioning, maintenance, inspection and review of reception facilities and gas appliances (80 hours)
Links with professional trainings:
This Professional Certificate partially covers the minimum required knowledge stipulated in Chapter 2 " Gas Installer according to Royal Decree 919/2006 and its modification by Royal Decree 560/2010, In its ITC-ICG 09 "Installers and gas installers". It also covers the additional knowledge to carry out the activities of adjusting apparatus and the operations of commissioning, maintenance and repair of appliances For the purposes of this Regulation, the following shall be used for the purposes of: Glass-ceramic gas-gas covered by the aforementioned JTI in paragraph 4.
The training provided in the training module MF1526_2, of this certificate of professionalism, guarantees the level of knowledge necessary to obtain the qualification for the performance of the functions of prevention (a) basic level of labour risks, according to Annex IV of the Prevention Services Regulation, approved by Royal Decree 39/1997 of 17 January.
PROFESSIONAL PROFILE OF THE CERTIFICATE OF PROFESSIONALISM
Competition Unit 1
denomination: PERFORM COMMON AND INDIVIDUAL GAS RECEIVING FACILITIES
Level: 2
Code: UC1522_2
Professional realizations and realization criteria
RP1: Repose the location of appliances, lines, keys, security devices, regulation assemblies, counters, and other components characteristic of gas receiving facilities with efficiency, from a project or technical memory for the purpose of assembly or modification with quality and safety criteria for persons, environment and facilities.
CR1.1 The type of receiving installation is identified from the corresponding drawings and technical specifications distinguishing their characteristics.
CR1.2 The different components of the assembly or installation as well as their functional characteristics and specifications are identified from the corresponding drawings and technical specifications and are located location.
CR1.3 The possible dysfunction between the installation project and the site itself, is determined by adopting the technical and organizational decisions that proceed, communicating it to the person of whom it depends.
CR1.4 The locations and anchor characteristics, supports, and connections of the different components and elements are pre-determined to be mounted.
CR1.5 The complementary schemes required for the repose and assembly of gas installations are performed in those cases that are required.
CR1.6 The layout of the pipes and other elements of the gas receiving facility is marked on the ground from the project or technical memory of the installation, taking into account the characteristics of the site and verifying the possible affected services, in order to allow their installation.
CR1.7 The affected work area is marked according to regulatory requirements.
CR1.8 The repose of the location of appliances, lines, keys, security devices and other components of the gas receiving facilities is performed efficiently, according to quality criteria and in accordance with the plan for the prevention of occupational risks and environmental protection regulations.
RP2: Prepare the assembly of gas receiving facilities according to the corresponding project or technical memory and current regulations, with efficiency, and with criteria of quality and safety for the people, environment and facilities.
CR2.1 The assembly sequence is established from drawings and technical documentation, in a coordinated way with the rest of the team, optimizing the process in terms of security, method and time.
CR2.2 Required materials, tools, and other technical resources are selected according to the type of work to be performed.
CR2.3 The components are receptive by inspecting and evaluating the status of the components and checking their suitability for technical prescriptions.
CR2.4 The work area is prepared according to the requirements of the work itself, according to established work procedures and complying with the regulatory requirements.
CR2.5 The preparation operations for the assembly of gas receiving facilities are performed in a coordinated manner with the different people involved in the work, according to criteria of effectiveness.
CR2 .6. The collection, displacement, transfer and location of the materials and equipment are carried out without deterioration, with the means of transport and elevation required.
CR2.7 The preparation of the assembly of receiving facilities is carried out efficiently, according to quality criteria and according to the plan of prevention of occupational risks and environmental protection regulations.
RP3: Mount pipes and components of gas receiving facilities from planes, standards and technical specifications, complying with regulatory requirements, with efficiency and with quality and safety criteria for people, environment and facilities.
CR3.1 The pipes and anchor points of the pipes are placed according to the project specifications or the technical memory, allowing the expected expansion.
CR3.2 The pipes, valves and other elements of the installation are installed using mechanical joints (fittings, flanges, among others), welded joints, grafts, derivations, bending of tubes or any other accessory or the procedure used in the appropriate gas installations for the material used.
CR3.3 The handrails, pods, and other protections are mounted according to established procedures.
CR3.4 The evacuation, ventilation and, where appropriate, LPG bottles of less than 15 kg of content or mobile LPG tanks exceeding 15 kg are installed in accordance with the implementing rules.
CR3.5 The types and characteristics of mounted equipment and elements are ensured that they are suitable for working pressure and temperature and that they respond to the function they have to perform.
CR3.6 The pipes, fittings, and appliances that require it are isolated according to established techniques and procedures.
CR3.7 The appliance connections are made by meeting the technical specifications.
CR3.8 Testing of resistance, tightness and inertization are performed according to established regulatory procedures.
CR3.9 The work environment is left unobstructed and clean after assembly, managing leftover material, waste and emissions.
CR3.10 The work item is completed according to procedures set by the organization.
CR3.11 The pipes and components of gas receiving facilities are mounted taking the appropriate precautions to avoid interfering with other facilities, with efficiency, according to quality criteria and according to the Plan for the prevention of occupational risks and environmental protection regulations.
RP4: Develop the technical memory and complete the certificates that provide the main data and design features of the facilities to meet regulatory requirements.
CR4.1 The type of gas supplied and the characteristics of the connection are identified from the information provided by the distribution company.
CR4.2 The receiving facility is sectorized in tranches of equal material, pressure, and flow.
CR4.3 The load loss supported on each leg of the installation is determined depending on its characteristics.
CR4.4 The consumption of each apparatus is determined from its plates or manuals of use and the characteristics of the gas supplied.
CR4.5 Relative pressure variation due to height difference is taken into account in case it has influence.
CR4.6 The maximum probable or concurrency flow rate of the installation and the equivalent length of each span is calculated.
CR4.7 The load loss of the most unfavorable stretch is calculated and checks that it is within the supported margins.
CR4.8 The commercial diameter of each tranche is determined from tables, software, or the application of the corresponding formulas.
CR4.9 The drawings, schemas, and isometric diagrams of the installations are performed using the normalized symbology.
CR4.10 The memory of the gas receiving facility is made from the calculated data incorporating the main characteristics of the elements that make up the installation.
CR4.11 Installation certificates are completed, according to the regulatory procedures attaching the memory, sketch or documentation required in each case.
Professional Context
Production media
Protection and security equipment. Measuring equipment and apparatus: combustion analyser, manometers, leak detectors and others. Marking and signalling tools. Welding equipment and materials. Hand tools. Drawing tools, computer equipment. Elements for the management of waste.
Products and results
Gas installations made with efficiency and in a certifiable situation. Clean, orderly, waste-free and emissions-free working environment.
Information used or generated
Projects, technical memories, certificates, final plans of work, plans of assembly and cutting; isometric planes; schematics; sketches; list of materials; technical specifications; catalogues; service manuals and use; instructions for assembly and operation. Regulation of implementation. Regulatory documentation of gas installations.
Competition Unit 2
denomination: PERFORM THE COMMISSIONING, INSPECTION AND PERIODIC REVIEW OF GAS RECEIVING FACILITIES
Level: 2
Code: UC1523_2
Professional realizations and realization criteria
RP1: Carry out the relevant regulatory checks for the commissioning or periodic inspection or review of the gas installations in compliance with the requirements laid down in the legislation in force; and with quality and safety criteria for people, the environment and facilities.
CR1.1 The internal gas connection certificate, the common gas installation certificate, the individual gas installation certificate, and other regulatory documentation related to gas installations checks that they are completed according to regulatory procedures.
CR1.2 The set of farm regulation, if any, user regulator, if it exists and/or minimum or maximum safety valve is found to be located and/or installed in the facilities that require them and comply with the requirements. requirements of existing legislation.
CR1.3 The counters are checked to meet regulatory requirements.
CR1.4 The premises where the appliances connected to the gas installation are located, including the habitable vehicles, are checked to comply with the current regulations, including their ventilation and the evacuation ducts of combustion products originating from such appliances, located in the premises referred to above.
CR1.5 The maneuverability of the cutting devices is checked to meet regulatory requirements.
CR1.6 The pipes, their fittings and the rest of the visible and accessible parts of the receiving installation are found to comply with the regulatory requirements, inspecting in particular the layout and materials of the common receiving facility as well as the specific conditions to be met in the passage through walls and travel by basements, garages, false ceilings or other special areas.
CR1.7 LPG bottles of less than 15 kg or mobile LPG tanks exceeding 15 kg, if any, are found to be installed according to the current regulations.
CR1.8 Resistance and inertization tests are performed according to established regulatory procedures.
CR1.9 The regulatory checks relevant for the commissioning or for the inspection or periodic review of the gas installations are carried out on the basis of quality criteria and in accordance with the prevention plan of occupational risks and environmental protection regulations.
RP2: Check the tightness of the gas receiving facility, both in the commissioning of new or modified installations and in the periodic inspections and reviews in accordance with the regulatory procedure and with quality and safety criteria for people, the environment and facilities.
CR2.1 The keys that delimit the part of the installation to be tested are ensured that they are closed as well as the existing intermediate keys in the installation are open before the test is started.
CR2.2 The tightness test is performed at the pressure and for as long as they are specified in the current regulations for each case.
CR2.3 The tightness of the visible and accessible parts of the installation, including the connection of the devices, is checked by means of a leak detector, with soapy water, or by another procedure. Regulated in a regulated manner.
CR2.4 The anomalies and possible leaks detected are repaired at the moment by the tightening of fittings, replacement of gaskets, if possible, proceeding again to carry out the test of tightness and not being able to put in service the corresponding leg until such test is successful.
CR2.5 The installation service is disabled when the fault exceeds the scope of its competence and the user is informed of the procedure to follow.
CR2.6 The tightness of the gas receiving facility is checked against quality criteria and in accordance with the occupational risk prevention plan and environmental protection regulations.
CR2.7 Contingencies in the tightness test are resolved with maximum speed and safety.
RP3: To service gas installations, new or modified, after compliance with regulatory requirements, with quality and safety criteria for people, environment and facilities.
CR3.1 The requirements for stagnity and absence of anomalies are pre-checked for the commissioning of the receiving facility.
CR3.2 The user keys or the start of the individual installations that are not put into service at that time are found to be closed, blocked and sealed or covered if from the above. keys no continuity in the installation.
CR3.3 The connection keys for those gas appliances pending installation or pending to be started are checked to be closed, locked, sealed and plugged.
CR3.4 The internal connection, the common installation and, if appropriate, the individual installations that are put into service are purged, completely removing the air from the inside, following the established security procedures.
CR3.5 The parts of the installation where the tightness check is not correct are isolated by closing, blocking, and sealing a cutting key, and the part of the cut-key can be left in service. installation that is stagnating.
CR3.6 The set of regulations is put in place after checking the firing and optimum operation of the valves, exhaust and other safety valves and the opening and closing of the regulator.
CR3.7 The regulator's taring organs and safety valves that have been unsealed during commissioning operations are duly sealed.
CR3.8 The work environment is left unhindered and clean after the operations performed, managing leftover material, waste and emissions.
CR3.9 The commissioning of new or modified gas installations is carried out on the basis of quality criteria and in accordance with the plan for the prevention of occupational risks and environmental protection regulations
CR3.10 Contingencies in the commissioning of gas installations are resolved with maximum speed and safety.
RP4: Fulfill the documentation related to the inspection, periodic review, and commissioning of the gas installation according to current regulations and duly inform the user.
CR4.1 The certificate of prior evidence and commissioning of gas installations is completed according to regulatory procedures.
CR4.2 The periodic inspection certificate for common installation, individual installation and gas appliances is completed according to regulatory procedures.
CR4.3 The periodic review certificate for common installation, individual installation and non-distribution networks from distribution networks is completed according to regulatory procedures.
CR4.4 Failure reporting of inspections or periodic reviews of gas receiving facilities is completed, where appropriate, according to regulatory procedures.
CR4.5 Detected anomalies are reported to the user advising on the professional sector to which they should be directed to perform the repair.
Professional Context
Production media
Protection and security equipment. Measuring equipment and apparatus, combustion analyser, manometers, leak detectors. Hand tools.
Products and results
Gas installations tested and put into service efficiently and in a certifiable situation. Gas installations inspected. Revised gas installations. Users informed of the incidents and anomalies detected, and advised on the procedures for their resolution. Clean, orderly, waste-free and emissions-free working environment.
Information used or generated
Certificates of installation, inspection, review, and failure reports in gas installations. Technical specifications; catalogues; service and use manuals. Regulation of implementation. Regulatory documentation of gas installations. Documentation for the organization.
Competition Unit 3
Designation: PERFORMING THE COMMISSIONING AND MATCHING OF APPLIANCES TO GAS
Level: 2
Code: UC1524_2
Professional realizations and realization criteria
RP1: Carry out regulatory checks and inspections of gas appliances with quality and safety criteria for people, environment and facilities.
CR1.1 The general condition and the manoeuvrability of the apparatus controls, burners, ignition devices, protection and safety devices, thermostat and other handling organs of the domestic gasoils are checked according to established procedures.
CR1.2 Gas circuits and, in their case of water, are checked for regulatory pressure.
CR1.3 The absence of internal leakage through the cutting valves is checked by leak detector.
CR1.4 Security devices are checked according to established procedures.
CR1.5 The output of the combustion products is checked to meet the regulatory requirements.
CR1.6 The regulatory checks and inspections of gas appliances are carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and environmental protection regulations.
RP2: Perform the implementation and regulatory testing of gas appliances with quality and safety criteria for people, environment and facilities.
CR2.1 The overall power-on process of the device is verified to be in accordance with specifications by checking the operating sequence of the pilots if the apparatus has them.
CR2.2 The ignition of the burning of the burners is performed without any anomalous phenomena appearing in the stability of the flames, nor is it detected, if any, of pressure at the home or at the receiving facility.
CR2.3 The operation of the appliances is checked by verifying:
-The status of the burners and power-on devices.
-The effectiveness of locking and security devices.
-The efficiency and proper tarado of the gas pressure control device, if any.
-The operation of the forced-throw removal blocking device if this is mandatory, as well as the effectiveness of the anti-overflow shooting device when it is mandatory.
-The calorific consumption of the appliances.
-The flow rate of the cold water inlet (for boilers and heaters).
-The temperature and composition of the combustion products operating the burners at their rated power.
-The maximum performance times of the automatic gas pass valves when a failure is detected by any of the security devices.
-The existence of switching devices that prevent the simultaneous operation of open-loop boilers and mechanical extractors located at the same site.
CR2.4 The materials and components of the apparatus are visually reviewed by checking that they do not present abnormal deformations or deterioration that may negatively influence their operation and verify the markings and instructions.
CR2.5 The work environment is left unhindered and clean after operations, managing leftover material, waste and emissions.
CR2.6 The implementation and testing of the regulatory operation of gas appliances is carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and the protection regulations. environmental.
CR2.7 Contingencies in the commissioning of gas appliances are solved with maximum speed and safety.
RP3: Perform the adequacy of appliances for the change of the gas family, according to regulatory requirements and with criteria of quality and safety for people, environment and facilities.
CR3.1 The appliances are checked to work with their usual gas supply prior to their suitability for use with other gas.
CR3.2 The apparatus of the liquefied petroleum gas (LPG) installation is disconnected and the new connection to the installation of natural gas, or reverse, of natural gas to LPG, as appropriate, using the different types of connection allowed depending on whether the devices are fixed or mobile.
CR3.3 The change of injectors, adjustment of minimum burners, regulation of primary air, adaptation of the gas regulation and other operations are carried out in the process of adapting the apparatus to another family of gas.
CR3.4 The tightness of the apparatus connections, the stability of the flame in the burners, the operation of the safety devices, the analysis of the combustion of the apparatus, the shooting of the evacuation line, The temperature of the hot water, the heat consumption of the apparatus and other final checks on the processed equipment are carried out in the start-up process.
CR3.5 The work environment is left unhindered and clean after operations, managing leftover material, waste, and emissions.
CR3.6 The suitability of appliances for the change of the gas family is carried out on the basis of quality criteria and in accordance with the plan of prevention of occupational risks and environmental protection regulations
CR3.7 Contingencies in the commissioning of gas appliances are solved with maximum speed and safety.
RP4: Fulfill and, where appropriate, process, documentation related to the implementation or the adequacy of the appliances to gas according to regulatory procedures and inform and advise the user.
CR4.1 The operating manual, the declaration of conformity and other documentation related to the gas appliances are checked to be completed according to regulatory procedures.
CR4.2 The results of the combustion test, and the data on the gas flow and diameter of the initial and final injectors are incorporated, among others, in the completion of the application sheet of the appliances and the work sheet or part.
CR4.3 The commissioning certificate of the gas apparatus is completed including the printing of the combustion analysis where appropriate and is delivered to the user, archiving a copy to keep it at the disposal of the organ. competent of the Autonomous Community in compliance with the rules in force.
CR4.4 The attention and information to the user is done by advising them according to established procedures.
Professional Context
Production media
Protection and security equipment. Measuring equipment and apparatus, combustion analyser, manometers, leak detectors. Spare parts. Hand tools.
Products and results
Gas appliances tested and put in place efficiently and in a certifiable situation. Gas appliances processed and put in place with efficiency and in a certifiable situation. Duly informed and informed users. Clean, orderly, waste-free and emissions-free working environment.
Information used or generated
Set and cutting planes; schemes; listing of parts and components; technical specifications; catalogues; service and use manuals; assembly and operation instructions; equipment consumption tables. Regulation of implementation. Documentation relating to the implementation and suitability of gas appliances.
Competition Unit 4
Naming: MAINTAINING AND REPAIRING RECEIVING FACILITIES AND GAS APPLIANCES
Level: 2
Code: UC1525_2
Professional realizations and realization criteria
RP1: Perform preventive maintenance of gas receiving facilities, common or individual, with quality and safety criteria for people, environment and facilities.
CR1.1 The elements that make up the gas installations are visually and mechanically repassed, if necessary, to unlock those keys, valves or security devices that will be blocked by the procedures laid down in regulation.
CR1.2 The presence of corrosion, lack of priming, protection, or any other anomaly that may be detected visually are considered to be remedied.
CR1.3 The elements of the set of regulations are verified with leak detector, proceeding to cleaning the filter cartridge or replacing it in case of deterioration.
CR1.4 Combustion product vents and outputs are visually reviewed by checking that they are in perfect conditions of use to perform their functions, freeing them from obstacles if and detecting possible revocations in the outputs of combustion products.
CR1.5 The work environment is left unhindered and clean after operations, managing excess material, waste, and emissions.
CR1.6 The preventive maintenance of gas receiving facilities, common or individual, is carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and the protection regulations. environmental
CR1.7 Contingencies in the preventive maintenance of gas installations are resolved with maximum speed and safety.
RP2: Perform preventive maintenance of gas appliances attached to the facility, with quality and safety criteria for people, environment and facilities.
CR2.1 Water and gas circuit tightness of the devices is checked according to established procedures.
CR2.2 The combustion analysis, CO in environment and shooting of the evacuation pipeline, is performed by handling the analyzers, and printing and interpreting the report of the analysis obtained.
CR2.3 Kitchens, ovens, countertops, glass-ceramics and other cooking appliances are checked visually, regulating their minimums and proceeding to the grease of controls and accessories.
CR2.4 The losses and performance of hot water and heating appliances are determined to correct deviations from their efficient operation.
CR2.5 Gas appliances are regulated taking into account the useful nominal power of the apparatus and the necessary maximum powers, thereby actuating the gas modulation valve.
CR2.6 The work environment is left unhindered and clean after operations, managing leftover material, waste and emissions.
CR2.7 The preventive maintenance of gas appliances attached to the facility is carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and the protection regulations. environmental
CR2.8 Contingencies in the preventive maintenance of gas appliances are solved with maximum speed and safety.
RP3: Perform the repair of reception facilities and gas appliances, diagnosing the type and extent of the breakdown and following the protocol of action, with criteria of quality and safety for the people, environment and facilities.
CR3.1 Possible dysfunctions that occur in the operation of installations and devices are detected, diagnosed, classified and valued, considering the anomalies as minor or subsable in the shortest period of time. possible and increased time or necessarily lead to the interruption of the gas supply.
CR3.2 The leaks in the common or individual receiving facilities are repaired according to the established procedures.
CR3.3 The damaged elements of the receiving facilities are repaired or, if necessary, replaced.
CR3.4 The heat generator water body is dismounted and inspected, repaired, or replaced by damaged items.
CR3.5 The gas body is unmounted and inspected, repaired, or replaced with damaged items.
CR3.6 The injector and burner ramp are unmounted and inspected, repaired, or replaced damaged items.
CR3.7 The exchanger is unmounted and inspected, repaired, or replaced with damaged items.
CR3.8 The cut-off and output of the products from the combustion are disassembled and inspected, repaired or replaced by the damaged elements.
CR3.9 Microswitches, thermistances, and other electrical and control circuit components are unmounted and inspected, repaired, or replaced damaged items.
CR3.10 The circulating pump and expansion vessel are unmounted and inspected, repaired, or replaced with damaged items.
CR3.11 The workbench is free of obstacles and clean after the operations performed, managing leftover material, waste and emissions.
CR3.12 Repair of receiving facilities and gas appliances is carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and environmental protection regulations
CR3.13 Contingencies in the repair of gas installations and appliances are solved with maximum speed and safety.
RP4: Check the operation of the receiving facilities and repaired gas appliances ensuring their operability through the regulatory procedure, with quality and safety criteria for the people, the environment and facilities, and to complete and, where appropriate, process the relevant documentation and inform and advise the user.
CR4.1 The characteristic energy performance of the appliances is checked by acting in case necessary on the regulation of maximums and minimums.
CR4.2 The stannities of all circuits are verified by following the established procedures for this.
CR4.3 The combustion analysis in the exhaust and CO environment is performed, checking that the combustion performance is optimal, and that the firing of the outputs of the combustion products is equally important. correct.
CR4.4 The security devices for installations and appliances are checked according to established procedures.
CR4.5 The preventive and corrective maintenance reports appropriate to the actions carried out on installations and equipment are completed and, where appropriate, processed, according to established procedures.
CR4.6 The workbench is free of obstacles and clean after the operations performed, managing leftover material, waste and emissions.
CR4.7 The attention and information to the user is done by advising them according to established procedures.
CR4.8 The verification of the operation of the receiving facilities and repaired gas appliances is carried out on the basis of quality criteria and in accordance with the occupational risk prevention plan and the environmental protection.
CR4.9 Contingencies in checking the operation of receiving facilities and repaired or adapted gas appliances are resolved with maximum speed and safety.
Professional Context
Production media
Protection and security equipment. Measuring equipment and apparatus, combustion analyser, manometers, leak detectors. Hand tools.
Products and results
Gas receiving facilities maintained, diagnosed, repaired and in service with efficiency and in a certifiable situation. Gas appliances maintained, diagnosed, repaired and in service with efficiency and in a certifiable situation. Duly informed and informed users. Clean, orderly, waste-free and emissions-free working environment.
Information used or generated
Projects, assembly and cutting planes; isometric planes; schemes; listing of parts and components; technical specifications; catalogues; service and use manuals; assembly and operating instructions. Regulation of implementation. Documentation for the maintenance of reception facilities and gas appliances.
Competition Unit 5
denomination: PREVENTING RISKS IN RECEIVING FACILITIES AND GAS APPLIANCES
Level: 2
Code: UC1526_2
Professional realizations and realization criteria
RP1: Identify and assess the professional risks arising from the assembly, commissioning, maintenance and inspection and review of gas receiving facilities and in the implementation and adequacy of gas appliances, and to promote safe behaviour in the field of competition for its implementation in the determination and establishment of appropriate measures to safeguard the health and safety of workers, the environment and facilities.
CR1.1 Safe behaviors are promoted among staff to foster workers ' interest and cooperation in preventative action.
CR1.2 Information and recommendations on job security and risk prevention are transmitted.
CR1.3 Basic preventive actions such as order, cleaning, signaling, and general maintenance are encouraged and monitored and monitored.
CR1.4 The risks of falls of people and objects, exposure to extreme environmental temperatures and others related to the work area usually located in basements, garages, patios, roofs and on the street itself identify, in their case, the person responsible for the safety plan in that process for their assessment.
CR1.5 Risks in the use of scaffolding, lifting platforms, ladders and other ancillary means are identified, communicating, where appropriate, to the person responsible for the safety plan. in that process for evaluation.
CR1.6 The risks arising from the use of hand tools, electrical tools and welding equipment are identified and evaluated, taking appropriate protective measures for each situation.
CR1.7 The risks arising from exposure to harmful or toxic substances, explosions and fires are identified and evaluated, taking appropriate protective measures for each situation.
CR1.8 Professional risks in the process of commissioning and inspection and screening are identified, communicating, where appropriate, to the person responsible for the safety plan in that process for evaluation.
CR1.9 Professional risks in the process of commissioning and matching of appliances to gas are identified, communicating, where appropriate, to the person responsible for the safety plan in that process for evaluation.
CR1.10 The risks identified and the proposals for preventive measures provided by the workers are collected through participation in meetings, surveys and other procedures, with the transmission to the responsible higher by the established paths.
RP2: Act according to the security plan of the company applying the corrective measures established and complying with the rules and legislation in force in the putting into service, inspection and review of facilities, and (d) the development and adaptation of gas appliances to safeguard the health and safety of workers, the environment and facilities.
CR2.1 Collaborate with the staff responsible for the job risk prevention plan in managing the same
CR2.2 Manual work teams are used in accordance with training received and with good practice.
CR2.3 Measurement equipment is selected, used and maintained in accordance with the manufacturer's instructions.
CR2.4 Testing for stagnity is performed according to established procedures, with special emphasis on safety issues.
CR2.5 Leaks are located according to established procedures, paying special attention to the correct methods and equipment used.
CR2.6 The work areas of your responsibility are maintained in order and cleaning conditions.
CR2.7 In the event of possible leakage situations, the most advisable and expected action procedures are reported and implemented in the security plan.
RP3: Control the risks of explosion and intoxication in the operation of commissioning, inspection and review of reception facilities and in the implementation and adaptation of gas appliances to safeguard the health and safety of workers, environment and facilities.
CR3.1 The risks of the explosion-proof and the purging of the facilities are prevented and controlled in the performances in the gas installations.
CR3.2 The risk of the explosion location and control of leakage is prevented and controlled in the assembly and maintenance operations of gas installations.
CR3.3 The risks of poisoning arising from the measurement of the combustion of the apparatus or derived from the incorrect combustion of a transformed apparatus are prevented and controlled in the actions of the own putting into service, inspection and review of reception facilities and in the implementation and adaptation of gas appliances.
CR3.4 The tarate of the gas consumption of the apparatus is controlled to ensure that one of the causes of the bad combustion of the same is avoided.
RP4: Act on emergency and first aid cases quickly, effectively and safely by managing the first interventions to the effect and by coordinating with established officials and emergency services.
CR4.1 The information channels and means available for emergency actions are identified in advance by ensuring that they are fully operational.
CR4.2 Fire fighting equipment, alarm means, evacuation routes and emergency exits are checked, checking that they are well signposted, visible and accessible, to act in situations of emergency and in accordance with the regulations.
CR4.3 The responsibility of first-intervention team leader, if applicable, is assumed with warranty.
CR4.4 The protection of the crashed and the isolation of the cause causing the accident is done immediately.
CR4.5 The assessment of the emergency is performed by following the procedures defined in the security regulations.
CR4.6 The request for emergency assistance is made as set out in the security plan and in the current regulations, ensuring, in any case, the speed and effectiveness of the emergency plan.
CR4.7 First aid is provided according to the prescribed health recommendations for each case.
CR4.8 Emergency tests or drills are performed periodically according to established schedule.
Professional Context
Production media
Personal and collective protective equipment. Security features. Hydrocarbon gas detection equipment, ambient carbon monoxide detection equipment, carbon monoxide detection equipment in evacuation line. Means of detection and extinction of fires. Means of evacuation, action and first aid. First aid kit. Ergonomic elements of a job.
Products and results
Receiving facilities and safe gas appliances for people, facilities and the environment.
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; manuals of service and use; instructions for assembly and operation; databases; software; UNE standards, safety regulations. Protocol documents and safety guidelines to be followed for each specific job, workshop jobs, at height, proof of stagnity.
III. TRAINING OF THE CERTIFICATE OF PROFESSIONALISM
FORMATIVE MODULE 1
Naming: GAS RECEIVING FACILITY ASSEMBLY
Code: MF1522_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1522_2 Perform common and individual gas receiving facilities.
Duration: 170 hours
FORMATIVE UNIT 1
Naming: DOCUMENTATION AND LEGISLATION APPLICABLE TO GAS INSTALLATIONS
Code: UF1647
Duration: 30 hours
Competition reference: This training unit corresponds to the RP4
Assessment Capabilities and Criteria
C1: Develop technical memories of gas installations and fill in the regulatory documentation related thereto, based on data relating to the installation and in accordance with the current regulations.
CE1.1 Determine the general characteristics of different receiving facilities depending on the gas supply and the type of connection available.
CE1.2 Determine the power and characteristics of different receivers powered by the gas installations.
CE1.3 Perform calculations of powers, flow rates, pressures, load losses, and diameters to characterize the sections and sectors of different receiving facilities.
CE1.4 Select regulators, valves, and other components of receiving facilities characterized from catalogs and technical documentation.
CE1.5 Perform principle schemas, sketches, and isometric diagrams of gas receiving facilities.
CE1.6 To analyze the certificates of connection, common installation and individual installation required regulations to proceed to completion.
CE1.7 In a case scenario of a natural gas receiving facility characterized by the type of connection and the local to which it supplies:
-Determine the general features of the installation to be performed and its regulatory requirements.
-Identify gas appliances and their characteristics.
-Design the layout of the installation and its different sectors.
-Calculate powers, flow rates, pressures, load losses, and diameters and other parameters to fully configure the installation.
-Draw the sketch, principle scheme, and isometric diagram of the installation.
-Develop the technical memory and complete the installation certificate.
Contents
1. Regulatory documentation of gas installations
-Types of projects and technical memories of gas installations.
-Memory, plans, budgets, and specifications.
-Interpretation of building plans:
-Situation Planes.
-Detail and set Planes.
-Symbolic planes, principle schemes, sketches, and isometric diagrams.
-Regulatory regulatory documentation for the certification of gas receiving facilities.
2. Legislation applicable to gas installations
-Building Thermal Facilities Regulations.
-Technical Regulation for the distribution and use of gaseous fuels.
-Current administrations.
-Regulations on the prevention of occupational and environmental risks.
-Quality rules.
FORMATIVE UNIT 2
Naming: REPOSE OF GAS RECEIVING FACILITIES
Code: UF1648
Duration: 60 hours
Competition reference: This training unit corresponds to RP1
Assessment capabilities and criteria
C1: Specify the operation of gas receiving facilities by specifying their characteristics and elements related to the assembly of the gas receiving facilities and the regulatory requirements for application.
CE1.1 Identify different physical quantities and their units of measurement and explain the fundamental characteristics of the gas: natural gas (NG), liquefied petroleum gas (LPG) and others.
CE1.2 Classify and describe the types of gas receiving facilities.
CE1.3 Explain the general operation of a gas receiving facility and its control systems from the corresponding configuration schemes.
CE1.4 List, describe and explain the function of the various components that make up the gas receiving facilities.
CE1.5 Describe the fundamental requirements of the legislation and regulations applicable to this type of facility.
C2: Perform repose operations of a gas receiving facility from the interpretation of projects and technical memories, under the established quality and safety conditions.
CE2.1 Interpret the different documents that make up a project, technical memory or a manual of assembly of gas installations distinguishing the communicative functions of the planes that compose it and interpreting the elements Technical normalization.
CE2.2 Interpret principle schemas, sketches, and isometric diagrams of a gas installation and its components to facilitate its assembly.
CE2.3 Manage and interpret graphic information developed in computer representation systems by performing basic copying or data modification operations, using standardized procedures, corresponding to specific programmes for the design and representation of gas installations.
CE2.4 Perform replanting and mark the location of anchorages, supports, line of pipes and other components of the networks based on plans and technical documentation.
CE2.5 Describe the signaling requirements of the work zone according to the placement.
CE2.6 In practical cases of a gas installation characterized by drawings and corresponding technical documentation:
-Identify the different components of the installation, locating their placement.
-Specify the characteristics of each of the elements that compose it: pipes, flowmeters, valves, regulatory elements, and other accessories.
-Explain the 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 work zone signaling.
-Relate the composition and features of the installation with the regulatory requirements that apply to it.
-Adopt work and environmental risk prevention measures throughout the process.
Contents
Physical fundamentals in gas receiving facilities
-Strength, mass, acceleration and weight.
-Volumetric mass and relative density.
-Pressure:
-Static pressure.
-Pressure difference.
-Pascal Principle.
-Units.
-Atmospheric pressure.
-Absolute pressure and relative pressure.
-Manometers.
-Load loss.
-Power, power, and performance.
-Heat:
-Units.
-Specific Heat.
-Heat exchange.
-Amount of heat.
-Transmission of heat.
-Driving, conductive, insulating and refractory materials.
-Convection, radiation and dilation.
-Sensitive heat, status change.
-Temperature:
-Measures.
-Escalations.
-Flow.
-Venturi Effect Applications.
Gas Characteristics
-PVT relationships in gases.
-Steam tension (LPG bottles).
-Elements and chemical bodies present in combustible gases:
-Nitrogen.
-Hydrogen.
-Oxygen.
-Carbon compounds (CO and CO2).
-Hydrocarbons:
-Metano.
-Etane.
-Propane.
-Butane.
-Air as a mixture.
-Commercial fuels:
-Families and types.
-Manufactured gas.
-Propaned Air.
-Air metanazo.
-liquefied petroleum gases (butane and propane).
-Natural gas.
Configuring gas receiving facilities
Classification.
Committed.
Setup the installation:
Parts and constituent elements.
Accessories of gas installations:
Keys.
Regulators.
Counters.
Baffles.
Pressure-flow Limitators.
Investors.
Solenoid Valves.
dielectric joints.
Condensed collection device.
Bottle racers.
Liras.
Visual indicators.
Excess flow valves, check valves.
Leak detectors.
Pipeline, test, and test installations (UNE standards of application).
Counter installations (application UNE rules).
Local ventilation (application UNE rules):
Evacuation of burned gases.
Air entry for combustion.
Ventilation.
LPG bottle of less than 15 kg:
Description and types.
Operation.
Valves and regulators.
Installation (regulations).
Mobile LPG deposits exceeding 15 kg:
Description and types.
Operation.
Installation (regulations).
Gas receiving facility repose operations
Installations and facility schemes.
Realization of sketches for the repose.
Using tables and charts.
Gas, water, and electricity symbology.
Facilities repose procedures.
FORMATIVE UNIT 3
Naming: ASSEMBLY OF COMMON AND INDIVIDUAL GAS RECEIVING FACILITIES
Code: UF1649
Duration: 80 hours
Competition reference: This training unit corresponds to RP2 and RP3
Assessment capabilities and criteria
C1: Develop work plans for the assembly of gas receiving facilities, in accordance with the corresponding project and established work procedures.
CE1.1 Describe the different techniques to be applied in the gas installation assembly processes.
CE1.2 Identify the materials and tools to be used in the different gas installation assembly processes.
CE1.3 Relate the human resources involved in the different phases of the gas installations assembly.
CE1.4 Describe the gas facility assembly job optimization procedures.
CE1.5 Represent work organization and time control schemes in the assembly of a gas installation using appropriate diagrams and schedules at their level.
CE1.6 In a practical case of mounting a gas installation establish the sequence of assembly from drawings and technical documentation, optimizing the process in terms of safety, quality, cost, method and time.
CE1.7 In one or more practical cases of assembly of gas installations, containing several sectors with pipes of different diameter and different elements:
Select the materials, tools, and other technical resources required to perform the job.
Determine the human resources required in the different phases.
Determine the adequacy of components to technical prescriptions and develop a report of disconformities.
Determine the mount sequence by using a flow-gram.
Determine the quality and environmental risk prevention measures to be adopted in the installation assembly.
Define the assembly techniques on the key points of the installation.
C2: Perform gas installation assembly operations from the technical documentation, applying standard procedures and corresponding regulations, using appropriate tools, equipment and materials, and acting under the conditions of established quality and safety.
CE2.1 Describe the requirements of the work areas and the procedures for their preparation, determining the specific occupational risks involved and their corrective actions.
CE2.2 Describe methods and procedures for moving equipment and materials in security conditions and analyzing the criteria for their location.
CE2.3 Describe operations with equipment and tools to prepare, shape, and attach copper or other materials used in gas receiving facilities.
CE2.4 Describe operations with welding equipment to join pipes and fittings.
CE2.5 Specify methods and techniques used in the protection of pipes and fittings used in gas installations.
CE2.6 Describe thermal insulation techniques in pipes and fittings.
CE2.7 Indicating the application regulations in gas installations.
CE2.8 In case studies of different types of piped gas installations and LPG bottles, containing several sectors with pipes of different diameters and different elements:
Prepare the work area according to the requirements of the work according to established work procedures, determining the specific occupational risks and their corrective actions.
Move equipment and materials in security conditions, placing them in the most appropriate place for work to be performed.
Check the marking on the terrain and the repose of the installation and its components, signaling the area of action.
Place the supports and anchors respecting the expected dilations.
Prepare pipes, valves, and other elements by following the standard procedures.
Tender and connect the pipes, valves and other accessories using, among others, the appropriate welding equipment for each material.
Mount and apply corrosion protection.
Thermally isolate the pipes and elements that require it to meet the technical specifications and the implementing regulations.
Perform stress tests, stagnating, and inertization by complying with application regulations.
Mount evacuation and ventilation systems, with metal and rigid tubes, flexible tubes, and other materials, baffles, and cutouts, and place grids.
Perform mount operations by considering optimizing their efficiency based on the installation environment and general conditions.
Leave the workbench in order and cleanup conditions after mount operations.
Generate report on performed tasks, failures, and incidents.
Adopt work and environmental risk prevention measures throughout the process.
Contents
Planning the gas receiving facility assembly
Mount procedures.
Mounting Phases:
Organization.
Diagrams, flowcharts, and chronograms.
Determination and selection of equipment and elements required for mounting from installation plans.
Gas receiving facility assembly techniques
Technical and commercial characteristics and characteristics of pipelines and components.
Croquis, layout and measurement of pipes.
Useful use techniques, tools, and media used in the assembly.
Welding techniques:
Lead-lead welding.
Welding by soft and strong capillarity.
Oxyethylenic Welding.
Electrical welding.
Curved tubes.
Pipe Court.
Grafts and pipeline derivations.
Fixing pipes and placing protections, handrails, pods, and sealing.
Installing pipes, valves, and more items using mechanical joins:
Briids.
Racers.
Ermeto "or similar" systems.
Roscades.
Installing pipes, valves, and other elements using welded joints:
Lead-Lead, Lead-Copper, Bronze or Brass.
Cobre-copper, brass, bronze.
Steel-steel.
Copper, bronze, brass.
Lead-Lead (with cuff).
Laton-brass, bronze.
bronze-bronze.
Industrial safety in the assembly of gas receiving facilities.
Endurance and tightness tests.
Inertization tests.
Evacuations and vents:
Running with metal and rigid tubes, flexible tubes, and other materials.
Assembly of baffles and cutters.
Placement of grids.
Resolution and communication of incidents and anomalies regarding the assembly of gas receiving facilities:
Information to users.
Sizing gas receiving facilities
Previous data:
Gas characteristics.
PCS.
Minimum input pressure.
Allowable Load Loss.
Gas consumption:
Appliance power count.
Concurrency Coefficient.
Determination of the likely maximum flow rate.
Gas consumption data by appliances.
Driving Layout:
Actual Lengths.
Calculation equivalent lengths.
Determination of diameters based on flow rate, equivalent length of calculation lost load for each type of gas and other parameters to be considered.
General-use computing applications in the calculation and configuration of gas receiving facilities:
Assisted design programs.
Viewing and interpreting digitized planes.
Graphic treatment.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | N.
| |||||
|---|---|---|---|---|---|---|
|
| 30 | 30 | 30 |
20 | ||
|
Unit 2- UF1648. | 60 | 40 | ||||
|
Formative Unit 3-UF1649. | 80 | 30 |
Sequence:
Unable to access a formative drive without exceeding the previous one.
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 2
Naming: COMMISSIONING, INSPECTION AND REVIEW OF GAS RECEIVING FACILITIES
Code: MF1523_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1523_2 Perform the commissioning, inspection, and periodic review of gas receiving facilities
Duration: 80 hours
Assessment Capabilities and Criteria
C1: Perform verification, inspection, and review operations of gas receiving facilities in accordance with regulatory requirements, under established quality and safety conditions.
CE1.1 To indicate the current regulations regarding the operations of verification, inspection and review of gas receiving facilities.
CE1.2 Analyze different gas receiving facility certificates, checking that they are completed according to regulatory procedures.
CE1.3 Specify regulatory requirements regarding installation elements (regulatory cabinet, user regulator, safety valve, among others).
CE1.4 Specify the characteristics that the premises must have, including the habitable vehicles, where the control and security elements of the installation are placed to comply with the current regulations.
CE1.5 Specify the regulatory requirements for ventilation and exhaust ducts for combustion products.
CE1.6 In practical cases of checking, inspecting and reviewing receiving facilities with piped gas and with LPG bottles:
Check that the ventilation of the premises complies with the current regulations.
Check that the exhaust ducts of the combustion products comply with the current regulations.
Check that the pipes and fittings required for the optimal operation of the installation comply with the current regulations.
Check that the measurement teams are sealed according to current regulations.
Check that LPG bottles of less than 15 kg or mobile LPG tanks in excess of 15 kg, if any, are installed according to the current regulations.
Check the result of stress tests and inertization according to established procedures.
Adopt work and environmental risk prevention measures throughout the process.
C2: Operate with the equipment and means necessary to check the tightness of a gas receiving facility, complying with regulatory requirements and the standards of application under the conditions of quality and safety set.
CE2.1 Describe the sequence of operations and procedures to be performed in the test of the tightness of a gas receiving facility according to the regulatory requirements.
CE2.2 In a practical case, operate with the appropriate equipment and media for leak detection.
CE2.3 Describe the testing requirements for the tightness test.
CE2.4 In a practical case of checking the tightness of a gas receiving facility:
Perform the sequence of operations to perform the watertight test.
Check for non-leakage at different points in the installation.
Repair possible leaks in case of failure to overcome the tightness test.
Check that the result of the leak test is successful.
Leave the workbench in order and cleanup conditions after the operations performed.
Adopt work and environmental risk prevention measures throughout the process.
C3: Perform gas facility commissioning operations in compliance with regulatory requirements and enforcement standards under established quality and safety conditions.
CE3.1 Describe the sequence of operations and procedures to be performed in the commissioning of a gas installation according to the regulations.
CE3.2 Indicate the equipment and means necessary to perform the commissioning of a gas installation.
CE3.3 To indicate the current regulations applicable to the placing in service of gas receiving facilities.
CE3.4 In practical cases of putting in service of gas receiving facilities:
Check that user keys and connection keys to gas appliances that are not part of the installation that are put into service are closed, locked, sealed, and plugged.
Perform installation purging to remove air from inside.
Perform the installation's inertized.
Check that the safety valves work properly when the set of regulations is put in place.
Check that items that have been handled during commissioning operations are again sealed.
Adopt work and environmental risk prevention measures throughout the process.
C4: Fulfill orders and work items, certificates and reports related to inspection, review and commissioning of gas receiving facilities in accordance with current regulations.
CE4.1 To cite the regulations applicable to the commissioning, inspection and periodic review of gas installations.
CE4.2 Identify the different certificates related to the commissioning, inspection and periodic review of gas installations.
CE4.3 In practical cases of inspection, review and commissioning of gas receiving facilities:
Fill in the orders and parts of work for the inspection, commissioning and periodic review of gas installations.
Fill in the certificates of previous evidence, put into service and periodic review according to current regulations.
Fill in the reports of work performed and of anomalies and incidents detected in the inspection, classifying them in principal and secondary, both of the installations and of the apparatuses.
Make recommendations and procedures to address the different failures that can be detected in the facility.
Contents
Regulatory requirements for gas receiving facilities
Gas supply systems.
Gas distribution systems.
Types of receiving facilities according to the supply pressure and uses of the buildings.
Committed.
Regulatory assemblies and accessories for gas installations:
Keys.
Regulators.
Baffles.
Flow pressure limitations.
Investors.
Valves.
Pipes, tests and trials:
Installation requirements.
Measurement teams:
Counters.
Ventilation of premises.
Chimneys.
Gas Utilization Appliances:
Installation requirements.
LPG Bottles:
LPG mobile deposits exceeding 15 kg.
Gas receiving facilities in habitable vehicles.
Regulations applicable to the processes of putting into service, inspection or review of gas receiving facilities:
Technical regulation for the distribution and use of gaseous fuels. Additional technical instructions.
Application UNE rules.
Regulations on the prevention of occupational and environmental risks.
Testing and testing to be performed on the commissioning, inspection or periodic review of gas receiving facilities
Endurance and tightness tests.
Inertization tests.
Test of combustion analysis in the pipeline of evacuation and CO in the environment.
Regulatory regulatory documentation applicable to the placing in service, inspection or review of gas receiving facilities and communication of incidents
Certificates and reports collected and required by legislation for the activities of commissioning, inspection or review of gas installations.
Resolution and communication of incidents and anomalies regarding the commissioning, inspection or periodic review of gas receiving facilities:
Information to users.
Methodological guidelines
Distance training:
| Formative Module | Number of total hours of the module | Maximum hours
80 | ||
|---|---|---|---|---|
| 80 | 80 | 80 | 80 | 80 Centro_table_body "> 40 |
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 3
Naming: COMMISSIONING AND MATCHING OF APPLIANCES TO GAS
Code: MF1524_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1524_2 Perform the commissioning and adequacy of appliances to gas
Duration: 80 hours
Assessment Capabilities and Criteria
C1: Perform gas appliance checking operations according to regulations and enforcement rules under the established quality and safety conditions
CE1.1 Describe the general guidelines to be followed in the process of inspection and testing of gas appliances.
CE1.2 Indicating appliances susceptible to gas feeding and explaining their operation by specifying their characteristics and constituent elements.
CE1.3 Specify the operations to be performed based on the type of apparatus to be inspected or checked.
CE1.4 Indicating the application regulations in the testing of gas appliances.
CE1.5 In a practical case of checking for gas appliances that at least incorporates mixed heating and ACS boiler and kitchen:
Perform checks on the status of the burner controls.
Check gas circuit tightness inside the appliance by means of leak detectors.
Check the operation of the appliances before adjusting them to natural gas with the source gas.
Perform combustion analysis in an evacuation and CO environment.
Adopt work and environmental risk prevention measures throughout the process.
C2: Carry out operation and test operations of the gas appliances in compliance with the regulatory requirements and the implementing rules under the conditions of established quality and safety.
CE2.1 Describe the sequence of operations, procedures, and techniques used in starting and checking the operation of gas appliances.
CE2.2 Specify the main parameters to be measured in the commissioning and operation checking of a gas appliance.
CE2.3 Indicate the equipment and tools to be used in the commissioning and the regulatory testing of the gas appliances.
CE2.4 In a practical case of commissioning and checking of operation of at least one kitchen and a heating boiler and ACS:
Perform startup operations.
Make the measure of the gas consumption by adjusting it to the reference values.
Perform security device tarado pressure measurements.
Perform the combustion analysis in the gas apparatus evacuation line by adjusting the parameters to the best reference values.
Verify the cold water inlet flow (for boilers and heaters).
Adopt work and environmental risk prevention measures throughout the process.
C3: Adapting appliances for gas family change complying with regulatory requirements and enforcement standards under established quality and safety conditions.
CE3.1 Indicating appliances susceptible to natural gas adequacy.
CE3.2 Describe the sequence of operations, procedures and techniques used in the process of adapting appliances for the change of the gas family.
CE3.3 Describe procedures for the replacement or adaptation of injectors, the primary air setting of the burners, and the regulation thereof in the cooking appliances.
CE3.4 Describe in hot water production appliances, boilers and dryers the procedures for the suitability of the main burner, the pilot burner and the adaptation of the gas pressure regulator.
CE3.5 Describe the sequence of operations, procedures and techniques used when performing the checking and commissioning of the adapted devices.
CE3.6 Explain the operation of the safety devices of the burners according to the function they perform and the water temperature in the appropriate cases.
CE3.7 In a practical case of adapting an apparatus to another type of gas:
Check the storage status of the appliance.
Check that the device works well before adjusting it to another type of gas.
Verify the tightness of the connections and the appliance.
Perform different types of connections by verifying their tightness.
Replace injectors.
Adjust the air from the burners.
Regular burners verifying the stability of the flame.
Analyze the combustion.
Check the operation of security devices.
Perform water temperature measurements in the appropriate cases.
Adopt work and environmental risk prevention measures throughout the process.
C4: Fulfill orders and parts of work, certificates and reports related to the implementation and adequacy of gas appliances, based on data relating thereto, and in accordance with current regulations.
CE4.1 To cite the regulations applicable to the implementation and adequacy of gas appliances.
CE4.2 Identify the different certificates related to the implementation and suitability of gas appliances.
CE4.3 In practical cases of commissioning and matching of appliances to gas:
Fill out orders and work parts for the implementation and adequacy of gas appliances.
Fill in on-go certificates according to current regulations.
Fill in reports of work performed and anomalies and incidents in the implementation and adequacy of devices, classifying them in principal and secondary.
Fill in the failure reports of the gas appliances.
Make recommendations and procedures to address the different anomalies that can be detected in appliances.
Contents
Legislation applicable to the processes of commissioning and/or adequacy of gas appliances
Specific regulations on the implementation and adequacy of gas appliances.
Regulations on the prevention of occupational and environmental risks.
Quality rules.
Combustion of gas and ventilation appliances
Types of gases and their heat output.
Fuel and combat fuel.
Combustion reactions.
Complete and incomplete combustion.
Primary air and secondary air.
White and blue flame.
Ignition and inflammation temperature.
Top calorific power.
Combustion products (PdC):
Importance of your evacuation.
Risk to people's health.
Analysis of the products of burning and burning gases.
CO in environment.
Air entry for combustion.
Ventilation of premises.
Evacuation of burned gases.
Gas Utilization Appliances
Classification and types of equipment according to the way the products are evacuated from combustion.
Types of appliances based on usage:
Cooking Appliances.
Heating appliances.
Appliances for the production of sanitary hot water.
Refrigeration appliances.
Lighting appliances.
Washing machines.
Installation conditions.
Operating features.
Burners:
Definition.
Functions.
Combustion systems (fuel and combat mixture).
Burner types, description, and operation.
Device protection and security devices, description and operation:
bimetalics.
Thermocouples.
Atmosphere analyzer.
Thermostats.
Control of the fluid pressure.
PdC evacuation device (cortatiro).
PdC antioverflow device.
Insufficient flow rate insurance.
Excess Flow Insurance (Presostat).
Light-sensitive detector organs.
Detector organs using the conductivity of the flame.
Power-on devices.
Verification and commissioning of gas appliances
Detection of dysfunctions in the electrical circuit:
Electrical circuit components.
Power.
Capacitors.
Monofasic lines.
Electrical protection and control frames.
Asynchronous engines.
Leakage currents.
Galvanic currents (bases and operation of cathodic protection).
Dismantling and identification of key elements and devices of different household appliances.
Assembly, connection and commissioning of household appliances:
Allowable connections.
Regulatory devices.
Protection and security devices.
Power-on device.
Determining and adjusting the expense.
Adjusting the primary air from the burners.
Recommendations for startup:
Vents and local conditions.
Gas characteristics.
Seals and test runs.
Performance:
Sensitive heat losses.
Unburned losses.
Radiation or convection losses.
Apparatus operating pressures.
Checking the operation of the appliances.
Combustion analysis in the evacuation and CO ducts in the environment.
Adapting appliances to other gas families
Reasons for adapting appliances.
Required requirements.
Dismantling and identifying items:
Materials.
Required tools.
Spare Parts.
Fundamental operations for the adaptation of cooking appliances to gases from different families.
Basic operations for the adaptation of hot water and gas heating appliances to different families:
Determining and adjusting the expense.
Checking the water flow and useful power of the apparatus.
Checking the operation of the security device.
Adaptation of industrial appliances.
Checking the operation of devices after they have been transformed:
Connecting and commissioning.
Endurance and tightness tests.
Analysis of the products of burning and burning gases (CO in the environment). Combustion in the outlet of combustion).
Usage instruments for measurements.
Reading counters.
Regulatory documentation for the commissioning and/or suitability of gas appliances
Certificates and reports collected and required by the Legislation for the activities of commissioning and/or matching of appliances.
Resolution and communication of incidents and anomalies related to the testing and commissioning of gas appliances:
Information and advice to users.
Methodological guidelines
Distance training:
| Formative Module | Number of total hours of the module | Maximum hours
80 | ||
|---|---|---|---|---|
| 80 | 80 | 80 | 80 | 80 Table_table_izq"> 30 |
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 4
Name: MAINTENANCE AND REPAIR OF RECEIVING FACILITIES AND GAS APPLIANCES
Code: MF1525_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1525_2 Maintain and repair receiving facilities and gas appliances
Duration: 80 hours
Assessment Capabilities and Criteria
C1: Perform preventive maintenance and failure detection operations in gas installations according to established procedures and regulations in place, under the established quality and safety conditions.
CE1.1 Indicate the elements that can be checked at the gas installations.
CE1.2 Indicate the regulatory requirements to be considered in the preventive maintenance and detection of anomalies in gas installations.
CE1.3 Explain the most frequent failures in gas installations and their main causes.
CE1.4 Describe the sequence of the process to be followed in checking the operation and detection of failures in gas installations.
CE1.5 Indicating the applicable labour and environmental risk prevention standards for gas installation maintenance operations.
CE1.6 In a practical case of checking the operation of a gas installation that incorporates a regulatory cabinet:
Verify that the elements that make up the gas installation are in perfect conditions of use.
Perform the necessary operations to detect the presence of corrosion, lack of priming, or any other failure.
Verify with leak detectors the elements of the installation.
Check that the ventilation and outputs of combustion products are in perfect conditions of use to fulfill their functions.
Adopt work and environmental risk prevention measures throughout the process.
C2: Perform preventive maintenance operations on gas appliances in accordance with established procedures and regulations in force, under the established quality and safety conditions.
CE2.1 Indicate the types of gas appliances and their elements that are susceptible to testing.
CE2.2 Indicate regulatory requirements to be considered in the preventive maintenance of gas appliances.
CE2.3 Explain the most frequent anomalies in gas appliances and their main causes.
CE2.4 Describe the sequence of the process to be followed in checking the operation and detection of anomalies in the gas appliances.
CE2.5 Indicating the rules for the prevention of occupational and environmental risks applicable to the maintenance of gas appliances.
CE2.6 In a practical case of checking the operation of a gas appliance that at least incorporates mixed heating and ACS boiler and kitchen:
Check that kitchens, ovens, countertops, glass-ceramics, and other cooking or gasodomestic appliances have a proper functioning in all their elements or, otherwise, detect dysfunction.
Check that hot water and/or heating appliances have proper functioning in all their elements or, otherwise, detect dysfunction.
Perform combustion analysis in the pipeline of evacuation and CO in the environment, properly interpreting the data obtained.
Adopt work and environmental risk prevention measures throughout the process.
Generate report on performed tasks, failures, and incidents.
C3: Perform corrective maintenance operations on gas installations and appliances in accordance with established procedures and regulations, under the established quality and safety conditions.
CE3.1 Identify the tools, tools, materials, and media to be used in the repair operations of gas installations and appliances.
CE3.2 Indicate regulatory requirements to be considered in corrective maintenance in gas installations and appliances.
CE3.3 Describe the corrective action protocol in gas installations and appliances.
CE3.4 Classify the types of breakdowns and relate them to the means, materials, tools, procedures, or techniques to use.
CE3.5 In a practical case of breakdown repair in a installation with several gas appliances:
Perform the detection and diagnosis of the different breakdowns by properly classifying their type and having the most suitable means and procedure for their repair.
Proceed to repair with appropriate equipment and procedure, observing at all times due safety measures.
Repair faults detected in hot water and/or heating appliances.
Repair faults detected in domestic gasoils.
Repair faults detected in kitchens, ovens, countertops, glass-ceramics, and other cooking appliances.
Regular gas appliances in order to optimize their consumption and performance and ensure their safety according to current regulations.
Make replacements for the installation elements.
Repair leaks by later checking their due tightness.
Verify that the repair procedure was successful.
Adopt work and environmental risk prevention measures throughout the process.
Generate report on performed tasks, failures, and incidents.
C4: Perform operations to check the operation of repaired gas installations and appliances, under the established quality and safety conditions, and to complete the required documentation.
CE4.1 Describe the sequence of operations, procedures, and techniques used when performing checks on repaired appliances.
CE4.2 Describe regulatory procedures for different gas appliances to optimize their consumption and performance and ensure their safety according to current regulations.
CE4.3 Explain the different types of exhaust gas evacuation, regulatory requirements depending on the type of apparatus and the main problems that may arise from a defective evacuation.
CE4.4 In a practical case, complete orders, work parts, certificates and reports, corresponding to preventive, corrective and repair maintenance operations in gas installations and appliances.
CE4.5 In a practical case of commissioning after a breakdown repair in a installation with several gas appliances:
Check the conservation status and the appliance works well after repair.
Verify the tightness of connections by following established procedures.
Verify the flame stability in the burners by complying with the established regulations.
Check the operation of the security devices of the burners according to the function they perform.
Regular gas appliances in order to optimize their consumption and performance.
Perform combustion analysis in an evacuation and CO environment, checking the performance and optimal evacuation of the combustion products according to current regulations.
Populate orders, work items, certificates, or reports as appropriate.
Adopt work and environmental risk prevention measures throughout the process.
Generate report on performed tasks, failures, and incidents.
Contents
General maintenance of receiving facilities and gas appliances
Venting and evacuating PdC:
Importance of the evacuation of the PdCs.
Risk to people's health.
Evacuation conducted and not conducted.
Natural Draught Driven Evacuation.
Forced-shot driven evacuation.
Collective Appliance Installations:
Types of fireplaces.
Features.
Major problems that can be caused by a faulty evacuation.
Usage recommendations and security measures:
Recommendations for the use of liquefied petroleum gas (LPG).
Liquefied petroleum gas (LPG) bottles.
Coupling to the installation.
Bottle of bottles.
Packaging transport.
Recommendations for Natural Gas Use.
Water:
Corrosion.
embeds.
Pollution.
cathodic protection.
The air:
Air pollution.
Preventive and corrective maintenance of gas receiving facilities
Characteristics and operation of gas receiving facilities.
Implementing regulations in the maintenance of gas installations.
Procedures and operations for taking action.
Gas installations maintenance programs:
Performance protocols in reviews.
Using maintenance manuals:
Critical breakdowns.
Diagnosis of breakdowns.
Checking and adjusting the parameters to the watchword values:
Supply and operation pressures.
Performance evaluation:
Tracking the consumption.
Leak Detection:
Environmental gas detection.
Maintenance of Regulators and Pressure Limiters:
Flow modulator valves.
Maintenance of Accessories:
Supports and braces.
Pasamides.
Fundas or pods.
Maintenance of Accountants.
Maintenance of evacuation systems and mechanical ventilation:
Chimneys.
Baffles and cutouts.
Grids.
Mechanical repair of pipes, joints, and accessories:
Pipes.
Curved tubes.
Pipe Court.
Grafts and derivations.
Mechanical junctions.
Briids.
Racers.
Ermeto "or similar" systems.
Roscades.
Welding repair:
Lead-lead welding.
Welding by capillarity.
Oxyethylenic Welding.
Electric Arc Welding.
Welded joins.
Using the usual equipment and tools.
Preventive and corrective maintenance of gas appliances
Preventive and corrective maintenance at burners:
Percentage of primary aeration.
Regulation of the flames.
Detachment.
Return, stability, yellow tips.
Device protection and security devices:
Atmospheres analyzer.
Thermostats.
Presostats.
PdC evacuation device (cortatiro).
PdC antioverflow device.
Insurance against insufficiency or excess flow.
Light Sensitive Detector Organs:
Photoelectric Valves.
Photoconductive Valves.
Download pipes.
Detector organs using the conductivity of the flame.
Power-on devices:
By piezoelectric effect.
By electrical spark.
By electrical resistance.
On scheduled.
Dismantling, component repair, commissioning, leak repair, efficient operation check, and performance in gas appliances:
Cooking Appliances, ovens, glass-ceramics.
Heating appliances.
Appliances for the production of sanitary hot water.
Refrigeration and HVAC appliances.
Lighting appliances.
Washing machines.
Mobile stoves.
Reviews of receiving facilities and gas appliances
Periodic preventive visit with or without heating:
Systematic and operational of the visit.
Result of the visit and take action in each case.
Documentation to use:
Preventive and corrective maintenance report.
Maintenance Contract.
Resolution and communication of incidents and anomalies regarding the maintenance and repair of receiving facilities and gas appliances:
Information and advice to users.
Methodological guidelines
Distance training:
| Formative Module | Number of total hours of the module | Maximum hours
80 | ||
|---|---|---|---|---|
| 80 | 80 | 80 | 80 | 80 Table_table_izq"> 20 |
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
TRAINING MODULE 5
Naming: SECURITY IN RECEIVING FACILITIES AND GAS APPLIANCES
Code: MF1526_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1526_2 Prevent risks in receiving facilities and gas appliances
Duration: 50 hours
Assessment capabilities and criteria
C1: Identify safety and health activities at work in the basic regulatory framework that regulates them in the gas sector, assessing the importance of preventive management.
CE1.1 Identify regulations on the prevention of occupational risks and their application in the gas sector.
CE1.2 Explain the meaning of the concepts of safety and health at work, occupational risk, damages arising from work, prevention, accident of work and occupational disease, explaining the characteristics and elements that define and differentiate each of them.
CE1.3 Citar the general characteristics that define safety techniques and health techniques by specifying the differences between them.
CE1.4 Define what risk prevention management is by justifying preventive measures and protecting workers ' health and safety.
CE1.5 Identify the requirements of the Safety and Health Plan for a work related to the assembly and maintenance of gas installations.
CE1.6 Identify public and private agencies and agents related to Safety and Health at Work.
CE1.7 Summarize the functions of the Prevention Services and mention the obligations of the different legally defined decision-makers.
CE1.8 Identify the rights and obligations of workers in security and health, specifying, among others, those related to protection, information, preventive training, consultation and participation.
CE1.9 Relate the channels or means of disclosure of information on job security and risk prevention in the performance of operations in the gas sector.
CE1.10 In a practical scenario of activities linked to the promotion of safe behaviors in the development of work in the gas sector:
Develop a programme of training and information activities for workers who integrate motivation actions, change attitudes and awareness of workers aimed at promoting safe behaviour in the workplace. development of the tasks.
Elaborate disclosure posters and internal rules that contain the essential elements of general and sector prevention, such as information, signage, images and symbology, among others, to promote safe behaviors.
Design a procedure that contains all the elements required for verification of the effectiveness of all scheduled actions.
Designing an information campaign on all the actions envisaged in the field of occupational risk prevention.
C2: Identify and assess occupational and environmental risks in operations related to the assembly, maintenance, inspection and commissioning of installations, and the implementation and adaptation of gas.
CE2.1 Indicate the specific risks of the gas industry.
CE2.2 Identify and evaluate the risks related to the work area.
CE2.3 Identify and assess risks related to scaffolding, ladders, platforms, among others.
CE2.4 Identify and assess risks related to the use of hand tools, power tools, and welding equipment.
CE2.5 Identify and assess risks related to fires, explosions, and exposures to harmful substances.
CE2.6 Identify and assess risks related to the commissioning, inspection and review of gas installations.
CE2.7 Identify and assess risks related to the implementation and adequacy of gas appliances.
CE2.8 Identify and interpret the signalling of pipes, appliances and equipment, specifying regulatory requirements in this respect.
C3: Apply security techniques and preventive measures according to the established protocol, in putting into service, inspection and review of facilities, and commissioning and matching of gas appliances.
CE3.1 Describe the preventive measures to be applied to prevent and control the risks of explosion, intoxication and other derivatives of the operations of commissioning, inspection, review of facilities, and commissioning and adequacy of gas appliances.
CE3.2 Indicate the security techniques to be applied in the operations of commissioning, inspection, review of facilities, and commissioning and adequacy of gas appliances.
CE3.3 Describe individual and collective protective equipment used in gas installations and assess the importance and need for proper use and maintenance.
CE3.4 Expose self-control techniques to stress situations.
CE3.5 In a practical, properly characterized case, of an accident or contingency in a gas installation or apparatus:
Select and use protective equipment according to its purpose.
Select, use, and maintain measurement and detection equipment according to technical instructions.
Apply established protocols and procedures for action in situations of gas leakage.
Draw up the documentation and reports that require a certain contingency.
C4: Apply acting techniques in emergency situations and require first aid, in accordance with emergency plans, gas sector regulations and basic health care protocols.
CE4.1 Describe an emergency plan, analyzing the parts in which it is divided and the functions of the first intervention teams.
CE4.2 Describe emergency devices, equipment, and protective measures for local gas installation and explain the characteristics of the gas operation.
CE4.3 Detailed the most frequent accidents occurring in gas installations and appliances and relate them to emergency devices.
CE4.4 Define the actions to be followed by people in the face of accidents or contingencies related to asphyxiation, trapping in ditches, fire, electrocution, describing protective measures, assessment, aid and first aid in each case.
CE4.5 In a scenario of simulated fire extinguishing in a local with gas installation:
Select the appropriate individual protection equipment for the fire type.
Select and use portable and fixed media with solid, liquid, and gaseous agents.
Make extinction using the method and technique of the equipment used.
CE4.6 In a practical evacuation scenario, in which the plane of a building and the evacuation plan are facilitated in the face of emergencies:
Locate special detection, alarm, and light installations.
Sensitive protection media and escape paths.
Propose the procedures for action in relation to the different risk zones in a given emergency situation.
CE4.7 Citar the basic content of the booties for performances in the face of emergencies.
CE4.8 In a scenario of simulated accident simulation exercises:
Indicate precautions and measures to be taken in case of bleeding, burns, fractures, luxations and muscle injuries, positioning of patients and immobilization.
Apply resuscitation measures, cohibide of bleeds, immobilizations, and bandages.
CE4.9 Compliment with descriptive reports of the emergency situation and damage assessment.
Contents
Safety and Health at Work
Work and Health:
Definition and components of health.
Professional risks.
Risk factors.
Damage from work:
Accidents at work.
Professional diseases.
Incidents.
Other pathologies derived from work.
Economic and operational impacts.
Basic regulatory framework for occupational risk prevention:
The labor risk prevention law.
The prevention services regulation.
Scope and legal bases.
Health and safety directives at work.
Protection rights, information, preventive training, consultation and participation.
Basic duties in this field.
Public agencies related to health and safety at work:
National agencies.
Autonomic character bodies.
General risks and their prevention
Risks linked to security conditions.
Risks linked to the workbench
Risks derived from workload and fatigue
Risk assessment techniques.
Security Techniques:
Prevention and protection measures.
Health Techniques:
Industrial hygiene.
Ergonomics.
Work medicine.
Preventive planning in the enterprise:
A work's health and safety plan.
Health control of workers.
Prevention services:
Typology.
Basic risk prevention management elements:
Representation of workers.
Basic routines in the organization for preventive work.
Collection, elaboration, and documentation file.
Risks and prevention measures in gas installations and appliances
Specific risks of the gas industry.
Fires, deflagrations and detonations:
Triangle of fire.
Fire classes.
Fire and explosion hazards:
Prevention, protection and extinction.
Defagrations.
Security Techniques:
Preventive measures.
Risk analysis.
Poisoning of gas and combustion products:
Symptoms of intoxication and emergency measures.
Working environment.
Environmental risks:
Waste in the works.
Discharges into the media.
Pollution.
Greenhouse Effect.
Regulations on the prevention of occupational and environmental risks in the gas sector.
Security in gas installations and appliances
General security recommendations.
Protective equipment:
Individual and collective protective equipment.
Auxiliary security teams.
Fire detection and extinction systems.
Signage systems.
Inspection and maintenance of equipment.
Self-control techniques for risk or emergency situations.
Ventilation and tightness.
Leak Detection:
Leaking leaks.
Burner settings.
Emergency in gas installations and appliances
Emergency Plan.
Crashes:
Rugged protection.
Assessment of the accident.
Help request.
First aid:
Basic performance criteria.
Evacuation.
Methodological guidelines
Distance training:
| Formative Module | Number of total hours of the module | Maximum hours susceptible distance |
|---|---|---|
|
Formative Module-MF1526_2. | 50 | 40 |
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
NON-WORKING PROFESSIONAL PRACTICE MODULE FOR ASSEMBLY, COMMISSIONING, MAINTENANCE, INSPECTION AND REVIEW OF RECEIVING FACILITIES AND GAS APPLIANCES
Code: MP0354
Duration: 80 hours
Assessment Capabilities and Criteria
C1: Perform repose and assembly operations of gas installations from the technical documentation, applying standard procedures and corresponding regulations, using tools, equipment and materials appropriate, and acting under the conditions of established quality and safety.
CE1.1 Collaborate on the repose and marking operations of the location of the components for gas receiving facilities.
CE1.2 Collaborate on the work zone signaling.
CE1.3 Assist in pipeline preparation, laying, and connection.
CE1.4 Participate in the selection of the materials and tools required to perform the work.
CE1.5 Collaborate in the application of corrosion protection and in the isolation of pipes.
CE1.6 Assist in the performance of stress tests, tightness and inertization.
CE1.7 Collaborate on the assembly of evacuation and ventilation systems.
CE1.8 Participate in mount operations.
CE1.9 Assist in completing regulatory documentation related to gas installations.
C2: Perform operations review and commissioning of gas installations in compliance with regulatory requirements and enforcement standards under established quality and safety conditions.
CE2.1 Assist in checking that the ventilation of the premises, the evacuation conduits, the pipes, the fittings, the measuring equipment, the LPG bottles comply with the current regulations.
CE2.2 Collaborate on checking that the tightness of a gas receiving facility meets the standards of quality and safety.
CE2.3 Help check that user keys and connection keys to gas appliances that are not part of the installation that are put into service are closed, locked, sealed, and plugged.
CE2.4 Collaborate to perform the purging of the installation to remove the air from the inside.
CE2.5 Collaborate to perform the installation inertized.
CE2.6 Help check that the safety valves work properly when the set of regulations is put in place.
CE2.7 Help check that items that have been handled during the commissioning operations are again sealed.
CE2.8 Collaborate on the completion of the previous test, commissioning, and periodic review certificates.
C3: Carry out operation and adaptation of gas appliances according to the regulations and implementing rules under the conditions of established quality and safety
CE3.1 Collaborate on the testing of gas appliances by checking the status of controls, gas circuit tightness by means of leakage detectors, combustion analysis in the pipeline of evacuation and CO in the environment.
CE3.2 Assist in the operations of commissioning and checking of operation of gas appliances collaborating in the performance of the measurement of gas consumption, the measures of pressure of the safety device, the combustion analysis and the verification of the flow rate of cold water in the case of boilers and heaters.
CE3.3 Participate in the operations of adaptation of appliances for the change of gas families with special emphasis on the replacement or adaptation of injectors, adjustment of primary air of the burners and regulation of the same and performance checks of the security devices.
CE3.4 Assist in the fulfillment of work orders and parts, as well as commissioning certificates.
C4: Perform maintenance operations on gas installations and appliances according to established procedures and regulations, under the established quality and safety conditions.
CE4.1 Collaborate on preventive maintenance of gas installations by helping to perform the necessary operations to check the good status of the gas installations or to detect possible failures.
CE4.2 Help check the proper operation of gas appliances or otherwise detect dysfunction.
CE4.3 Participate in the repair of gas installations or appliances breakdowns.
CE4.4 Assist in the regulation of gas appliances in order to optimize their consumption and performance.
CE4.5 Collaborate on operations to check the operation of repaired gas installations and appliances, with particular emphasis on performance checks and correct evacuation of burnt gases.
CE4.6 Help to prepare the report on the tasks performed, failures, and incidents.
C5: Apply security techniques and preventive measures according to the established protocol, in putting into service, inspection and review of facilities, and commissioning and matching of gas appliances.
CE5.1 Select and use protection equipment according to its purpose.
CE5.2 Select, use, and maintain measurement and detection equipment according to technical instructions.
CE5.3 Apply established protocols and procedures for action in situations of gas leakage and their accumulation in closed enclosures, as well as in CO.
CE6.1 Behave responsibly in both human relationships and the jobs to be performed.
CE6.2 Respect the procedures and rules of the work center.
CE6.3 Diligently undertake tasks according to the instructions received, trying to bring them into line with the company's work rate.
CE6.4 Integrate into the production processes of the job center.
CE6.5 Use the established communication channels.
CE6.6 To respect at all times the measures of risk prevention, occupational health and environmental protection.
Contents
Assembly of gas installations
Procedures and operations for preparing and reposing gas installations.
Gas receiving facility assembly techniques.
Calculation of gas receiving facilities.
Completing the regulatory documentation.
Testing and testing to be performed on the commissioning, inspection or periodic review of gas receiving facilities
Endurance and tightness tests.
Inertization tests.
leak detection.
Commissioning and matching of appliances to gas
Assembly, connection and commissioning of household appliances.
Operations for the adaptation of appliances to gases from different families.
Performance of gas appliances.
Apparatus operating pressures.
Checking the operation of the appliances.
Combustion analysis in the evacuation and CO ducts in the environment.
Maintenance of receiving facilities and gas appliances
Procedures and operations for taking action.
Checking and adjusting the parameters to the command values in installations and appliances (operating pressures).
Operations for preventive and corrective maintenance of installations.
Operations for preventive and corrective maintenance of gas appliances.
Security in gas installations and appliances
Security techniques.
Symptoms of intoxication and emergency measures.
Protective equipment.
Ventilation and tightness.
leak detection.
Integration and communication in the job center
Responsible behavior in the job center.
Respect to the procedures and rules of the work center.
Diligently perform and perform the instructions received.
Recognition of the organization's production process.
Using the communication channels set in the job center.
Adequacy to the business rate of the business.
Tracking risk prevention, occupational health and environmental protection regulations.
IV. PRESCRIPTIONS OF TRAINERS
|
Modules | Required Accreditation | Professional experience required in the scope of the competency | |
|---|---|---|---|
|
With accreditation | No accreditation | ||
|
MF1522_2: Gas receiving facility assembly | • Licensed, Engineer, Architect, or corresponding degree title or other equivalent titles. • Diplomate, Technical Engineer, Technical Architect, or corresponding degree title or other equivalent titles. • Higher Technical of the professional area Gas of the professional family Energy and water. • Certificates of professionalism level 3 of the professional area Gas of the professional family Energy and water. | 1 year | 3 years |
|
MF1523_2: Service, inspection, and review of gas receiving facilities | • Licensed, Engineer, Architect, or corresponding degree title or other equivalent titles. • Diplomate, Technical Engineer, Technical Architect, or corresponding degree title or other equivalent titles. • Superior Technician of the professional area Gas of the family Energy and water professionals. • Professional level 3 Professional Area Certificates of the Professional Family Energy and Water. | 1 year |
3 years |
|
MF1524_2: Commissioning and matching of appliances to gas | • Licensed, Engineer, Architect or Title of corresponding degree or other equivalent titles. • Diplomat, Engineer Technical, Technical Architect or corresponding degree degree or other equivalent titles. • Senior Technical of the Professional Area Gas of the Professional Family Energy and Water. • Professional Area Level 3 Professional Gas and Water Professional Certificates. | 1 year | 3 years |
|
MF1525_2: Maintenance and repair of receiving facilities and Gas appliances | • Licensed, Engineer, Architect or corresponding degree of degree or other equivalent titles. • Diplomacy, Technical Engineer, Technical Architect or the corresponding degree of degree or other equivalent titles. • Higher Technician of the professional area Gas of the professional family Energy and water. • Certificates of Professional area level 3 professionalism of the professional family Energy and water. |
1 year | 3 years |
|
MF1526_2: Security in receiving facilities and gas appliances | • Top Technician in Workplace Risk Prevention | 1 year | Required titration |
V. MINIMUM SPACES, FACILITIES AND EQUIPMENT REQUIREMENTS
| Surface m2 15 pupils | 25 | ||
|---|---|---|---|
|
45 | 45 | 45 | |
| 105 | 175 |
| M1 | M2 | M3 | M4 | M5 | ||||
|---|---|---|---|---|---|---|---|---|
|
M5 |
x |
x | x | x | x | x | ||
|
x | x | x | x | x | x |
| Equipment | |
|---|---|
|
Classroom. | Audio-visual equipment network-installed PCs, projection canon, and internet Specialty-specific software Pizarras to write with pen Rotafolios Classroom Material Table and chair for trainer Messes and chairs for students |
|
Workshop and gas appliances. | Gas appliances: kitchens, countertops, glass ceramics, boilers, heaters and stoves Type gas installations, piping and fittings Measurement Equipment: Water Manometers, Sphere Manometers, Methane detectors, explosiveness meters, combustion analyzers in the pipeline and in the environment and water flow meters. Welding equipment (weak, strong, oxyacetylenic and electric) with its fuels Tube cutters and cutters Work banks. Specific tools for the assembly and maintenance of gas installations and appliances. |
It should not be interpreted that the various identified learning spaces should necessarily be differentiated by closure.
The facilities and equipment must comply with the relevant industrial and sanitary sanitary regulations and respond to the universal accessibility and safety measures of the participants.
The number of units to be provided with the tools, machines and tools specified in the training spaces will be sufficient for a minimum of 15 students and must be increased, in their case, to attend to the top number.
In the event that the training is addressed to persons with disabilities, the adaptations and reasonable adjustments will be made to ensure their participation in equal conditions.
ANNEX II
I. IDENTIFICATION OF THE CERTIFICATE OF PROFESSIONALISM
Naming: Managing the operation in hydroelectric power stations
Code: ENAL0110
Professional family: Energy and Water
Professional Area: Electric Power
Professional qualification level: 3
Professional reference qualification:
ENA473_3 Management of the operation in hydroelectric power plants (RD 716/2010, 28 May)
Relationship of competency units that configure the certificate of professionalism:
UC1527_3: Control plant operation and maintenance of hydroelectric power plants.
UC1528_3: Operate hydroelectric power stations from the control center.
UC1529_2: Operate on site and perform first-level maintenance of hydroelectric power stations.
UC1200_3: Coordinate and prepare the human team involved in the operation area of the power plants.
UC1530_2: Prevent risks in high-voltage electrical installations.
General competition:
Manage, coordinate, control and perform the operation of hydroelectric power plants, support the monitoring of the production process and maintain them, as well as perform the first level maintenance, ensuring its optimum operation from the point of view of reliability, energy efficiency and safety for people, the environment and facilities.
Professional Environment:
Professional scope:
Develops its professional activity in the area or department of production of companies of any size, public and private, mainly for hire, related to the electrical generation through central hydroelectric, depending functionally on a superior and being able to have a lower level of staff.
Productive Sectors:
It is located in the energy sector, subsector of production, transportation and distribution of electrical energy: production of hydroelectric power.
Occupations or related jobs:
3131.1120 Hydroelectric Power Station Technician
3131.1056 Power Station Maintenance Operator
Operation and maintenance technician for hydroelectric power plants.
Hydro-power center control operator.
Plant operator of hydroelectric power plants.
Duration of the associated training: 730 hours.
Relationship of training modules and training units:
MF1527_3: Plant control of operation and maintenance of hydroelectric power plants (210 hours)
□ UF1766: Plant monitoring of equipment and installations of a hydroelectric power plant and process parameters (90 hours)
□ UF1767: Monitoring in plant of maneuvers, testing of equipment and systems and execution of discards (60 hours)
□ UF1768: Organization and monitoring of maintenance in hydroelectric power stations (60 hours)
MF1528_3: Control of hydroelectric power stations (150 hours)
□ UF1769: Control of operation parameters of different hydroelectric power plants from a control center and performing ordinary maneuvers (90 hours)
□ UF1770: Response actuations, from a hydroelectric power station control center, versus failures (60 hours)
MF1529_2: Plant operation and first-level maintenance of hydroelectric power plants (100 hours)
□ UF1771: Local operation of equipment and systems of a hydroelectric power plant (40 hours)
□ UF1772: Organization of first-level maintenance and basic maintenance operations in hydroelectric power stations (60 hours)
MF1200_3: (Transversal) Coordination and support for human teams involved in the operation of power plants (100 hours)
□ UF0561: Professional functions and training of an electrical power plant operating equipment (50 hours)
□ UF0562: Communications and transmission of information in the operation equipment of a power plant (50 hours)
MF1530_2: (Cross-sectional) Security in high voltage installations (90 hours)
MP0376: Non-working professional practice module for operation management in hydroelectric power plants (80 hours)
Linking with professional trainings:
The training provided in the training module MF1530_2 of this certificate of professionalism, guarantees the level of knowledge necessary to obtain the qualification for the performance of the prevention functions (a) basic level of labour risks, according to Annex IV of the Prevention Services Regulation, approved by Royal Decree 39/1997 of 17 January.
II. PROFESSIONAL PROFILE OF THE CERTIFICATE OF PROFESSIONALISM
Competition Unit 1
Naming: CONTROLLING THE OPERATION AND MAINTENANCE OF HYDROELECTRIC POWER PLANTS
Level: 3
Code: UC1527_3
Professional realizations and realization criteria
RP1: Control in the plant of a hydroelectric plant the state of the facilities and the parameters of the process in general to ensure the optimal operating conditions with criteria of reliability, efficiency energy and safety for people, the environment and facilities.
CR1.1 The operating situation and behavior of valves, turbines, generators, bearings, distributors, servo motors, pumps, compressors, drains, electrical systems, control systems, instrumentation and other equipment are determined from the information obtained in the plant.
CR1.2 The flow rates, pressures, levels, temperatures, noise, vibration, valve position, gate, stroke, and the rest of the process are determined from the measures they provide. the various field instruments and observations made at the plant.
CR1.3 Adjustment values and limit values for each fundamental parameter in the process are identified and interpreted, detecting, if any, deviations or anomalies.
CR1.4 The loss of lubricants, ecological flow and other environmental control factors are detected and interpreted, using immediate corrective actions, in order to avoid harmful conditions. to the environment.
CR1.5 Central operation tracking and diagnosis is performed using the established historical databases and protocols.
CR1.6 Changes in operation parameters or procedures that result in improvements in the operation of the facility and can achieve progress in energy efficiency, reliability, efficiency or safety processes are analyzed and proposed for consideration.
CR1.7 Central monitoring programs are performed to ensure the proper operation of the plant.
CR1.8 Related status and incident reports, with water sockets, avenues, aphorators, watertightness, galleries, and other components of the plant are elaborated according to the established procedure.
RP2: Control the operation of equipment both in ordinary operation and in stops and starts with criteria of reliability, energy efficiency and safety for people, environment and facilities.
CR2.1 The manoeuvres in gates, ataguias, valves, regulators, electrical switches, pumps and other manoeuvring elements are monitored, checking that they are executed according to the sequence set out in the procedures, with the required security measures and in coordination with the controllers in the control room.
CR2.2 Turbine bearings, timing, coupling, uncoupling, and load variations are monitored, checking that they are performed according to established procedures.
CR2.3 The protocols, limitations and starting conditions, load variations, operation and stop of turbines and other fundamental equipment are strictly observed, paying special attention to the parameters significant that the process is running in a secure condition.
CR2.4 The monitoring of levels, flow rates, pressures, temperatures and other electrical and hydraulic parameters of the process is carried out continuously, checking that they are in line with the reference values.
CR2.5 The anomalous or potential risk situations for people, environment, facilities, or for process stability, are detected, taking appropriate measures to recover the safe condition, at the same time. that the relevant information is transmitted to the controllers in the control center.
RP3: Verify that the periodic tests on equipment and systems of the hydroelectric plant are performed according to the established procedures with the aim of eliminating the possibility of latent failures.
CR3.1 The procedures or protocols for performing periodic testing of equipment and systems are rigorously applied.
CR3.2 The performance tests of the protections such as alarms and shots are performed according to established procedures or protocols.
CR3.3 The coordination with the control center of the hydroelectric plant, as well as the adoption of all safety measures prior to the testing of equipment are guaranteed in all cases using the procedures communication.
CR3.4 The modifications to the test procedures, operating instructions, discharge procedures or safety instructions, which are considered appropriate in accordance with the experience acquired, are proposed for incorporation.
CR3.5 The maneuvers, procedures, and results of rotating equipment are organized and monitored to achieve the least possible interference in the production process.
RP4: Control the temporary disabling or discarding of equipment and systems, both electric and hydraulic with criteria of reliability, energy efficiency and safety for people, environment and facilities and for these to be carried out with the lowest possible impact on the production process of the plant.
CR4.1 The scope and entity of the operation to be performed is rigorously analyzed to ensure that the result provides all the necessary security guarantees for the people, the environment, the equipment and the process.
CR4.2 The proper electrical insulation, grounding, ventilation, positioning and interlocking of gates and ataguias, isolation and drainage valves are checked to ensure optimum conditions of intervention, applying the five rules of thumb and established procedures and rules.
CR4.3 The certification that the equipment or system is disposed, properly signposted and in a totally safe condition so that it can be intervened is carried out in coordination with the controller of the control center, applying the five rules of gold and the procedures and rules laid down.
CR4.4 The recovery of the initial conditions and the correct disposal of the equipment or system for putting into service is ensured once requested the lifting of the discharge and fulfilled all the conditions and established protocols.
RP5: Organize and monitor maintenance processes in hydroelectric power plants with criteria of reliability, energy efficiency and safety for people, environment and facilities.
CR5.1 The organization and monitoring of facility maintenance is performed using the received and generated technical and administrative documentation.
CR5.2 The criteria for checking the general condition of the equipment in terms of its efficient nominal operation are set with the objective of obtaining the most maintenance of the type preventive.
CR5.3 The specifications of the various materials and equipment used in the maintenance of hydroelectric power plants are developed for the management of their acquisition.
CR5.4 The stock of warehouse materials and systems for distribution is managed, if it is their responsibility, under the premises of efficiency and quality.
CR5.5 The cleaning and oiling operations of the equipment and facilities are organized and monitored with criteria of efficiency, quality and optimization of resources.
CR5.6 Fungibles replenishment is organized and monitored with efficiency, quality, and resource optimization criteria to achieve the least interference in the energy production process.
CR5.7 The data obtained, the result of revisions or maintenance, is collected and used for the realization of the control sheets and reports concerning the tasks performed.
RP6: Adopt and enforce the measures of protection and prevention of occupational hazards required in the processes of operation and maintenance of hydroelectric power plants.
CR6.1 The rules and documentation on risk assessment and preventive planning of processes at the hydroelectric plant are known and their content is rigorously applied.
CR6.2 Professional risks of a general nature and those related to each of the central subsystems are detected and communicated in accordance with the established procedures.
CR6.3 The protection and risk prevention measures in operations in water-taking systems and their auxiliary systems related to maneuvers and repairs in a spiral chamber, turbines, pumps, valves, galleries, channels, gate grids and ataguias are monitored and coordinated according to established procedures.
CR6.4 Risk prevention measures in operations and repairs related to excitatrices, alternators, switches, dryers, and low and high voltage electrical appliances are monitored and coordinated. according to the established procedures.
CR6.5 Risk prevention measures related to wild animals, presence of personnel outside the facility, and other factors due to the usual remote locations of the facilities are monitored and coordinate according to established procedures.
CR6.6 Opening operations of gates, ataguias, relief, and other special risks are monitored to be carried out in accordance with the operating and safety procedures of the plant by checking the operativity of the acoustic and light signals that need to be activated.
CR6.7 The role of the first-intervention team responsible, if applicable, is assumed with warranty.
CR6.8 Action procedures in respect of accidents caused by phenomena of electrical, thermal, mechanical or fire origin, spills or leaks of flammable, toxic or corrosive products, or any other type, are implemented with the necessary rigor.
CR6.9 The risk and action sheets in emergencies corresponding to the incident or accident in question are carefully selected and used.
CR6.10 The procedures or instructions related to security measures are reviewed and updated based on the experience gained and the proposal for improvements in security plans is carried out in a manner usual.
CR6.11 The collaboration with the security officer in carrying out the training, practices, drills and management of signalling equipment, protection, confinement and extinction and in the dissemination of the master lines of the emergency plans is carried out at the intervals established.
Professional Context
Production media
Process monitoring systems and continuous monitoring of equipment. Control rooms. Protection and alarm systems. Field instrumentation. Operation and maintenance management systems: data acquisition, processing and analysis, work order management, team download management. Quality management systems. Environmental management systems. Management of the documentation. Electromechanical measuring equipment and apparatus. Communication equipment and systems.
Products and results
Process of supervised and controlled hydroelectric power plants in quality conditions: reliability, energy efficiency, safety for people, environment and equipment of the facility. Technical documentation-specifications, drawings, instructions, procedures-and historical databases, updated. Supervised maintenance. Professional risks arising from the operation of the plant properly identified, as well as the necessary preventive measures. The main lines of the emergency plans of the plants, released. Procedures for action against emergencies duly established, disseminated, known and practiced by means of drills and periodic tests.
Information used or generated
Instructions manuals provided by the manufacturer or supplier. Programs and maintenance manuals, quality manuals, instruction books, operating procedures, testing protocols, alarm books. Plans and schemes: mechanical plans and schemes, flow diagrams, electrical schemes, automatic diagrams. Different official regulations. Historical archives: information systems for hydraulic power stations. Safety manuals and procedures for action in the face of emergencies.
Competition Unit 2
Denomination: OPERATE FROM THE CONTROL CENTER HYDROELECTRIC POWER PLANTS
Level: 3
Code: UC1528_3
Professional realizations and realization criteria
RP1: Control the operating parameters of the different hydroelectric power plants from the control center to ensure optimal operating conditions with reliability, energy efficiency and security for people, environment and facilities.
CR1.1 The flow, avenues, ecological flow, transfers, and other hydraulic variables of the assigned installations are controlled and the monitoring of their evolution is carried out.
CR1.2 The operational situation and behaviour of turbines, generators, bearings, distributors, servo motors, pumps, compressors, drains, electrical systems, control systems, instrumentation and other equipment and systems are determined from the information obtained by the SCADA data acquisition and control monitoring systems.
CR1.3 The complementary data on hydraulic and electrical parameters of the different hydroelectric power stations monitored from the control centre are obtained from the information provided by the staff. field to control its operating status.
CR1.4 Failure and dysfunction in equipment, systems, and units are detected and located from the monitored or obtained information from field personnel, are recorded and communicated to the center of the control according to the established procedure.
RP2: Perform the start, stop, load variation, failure response, and other operations in hydroelectric power stations from the control center with reliability, energy efficiency, and security for persons, environment and facilities and under the supervision of the operational manager or head of shift.
CR2.1 The allocation of the means of production is performed according to the operating program, with the leadership guidelines and with the dispatch of loads.
CR2.2 The manoeuvres and performances in the central flow, start and stop transfer processes are carried out under the supervision of the control centre responsible or head of shift.
CR2.3 The levels of the dams and the other operating conditions that guarantee the flow necessary to achieve the appropriate flow conditions are checked according to the established procedures.
CR2.4 The manoeuvres and actions in the process of load variation and response to the central incidents are performed until the normal operating conditions under the supervision of the person responsible are restored. control center or shift head.
CR2.5 The instructions required for performing ordinary operations at the plant of the plant are communicated to the technical staff in accordance with the established procedure.
CR2.6 The instructions necessary for the performance of extraordinary operations and in response to incidents in the facilities of the plant of which it is responsible are communicated to the retainers of personnel in charge of its execution.
CR2.7 Information about the operation maneuvers of non-telematic-operated power plants is recorded in the existing operating book or tracking element.
CR2.8 The communication with load dispatch is performed to coordinate the variations in the central operating state by following the established procedure.
RP3: Coordinate, from the control center, the conduct of the periodic tests and the temporary disabling or discarding of equipment with criteria of reliability and safety for the people, environment and facilities and for these to be carried out with the least possible impact on the production process of the plant.
CR3.1 The scope and entity of the operation to be performed in the case of discards and tests, is rigorously analyzed to ensure that the result provides all the necessary security guarantees for the people, the environment, equipment and process.
CR3.2 Regular testing of equipment and systems is coordinated from the control center so that interference with the production process is minimal.
CR3.3 The temporary disabling or unloading of equipment is coordinated from the control center so that the interference with the production process is minimal.
CR3.4 Proposals for modifications to test procedures, operating instructions, discharge procedures, or safety instructions are collected and recorded for eventual incorporation into the improvement processes.
RP4: Act from the control center, according to established protocols, against unforeseen or anomalous situations to restore normal operating conditions or the entry into service of the devices emergency.
CR4.1 Anomalies whose resolution is not immediately feasible, are studied to determine the level of risk and possible corrective measures, triggering the alert where appropriate, and coordinating immediate actions and actions. subsequent to prevent risks.
CR4.2 Pipeline breaks or leaks, group shots, load rejections, stress zeros, pollutant discharges and other possible anomalous situations are identified promptly and accurately, valuing their entity or Scope and transcendence.
CR4.3 The performance in front of avenues is coordinated and performed following the protocols established under the supervision of the head of the shift.
CR4.4 The entry into service of the emergency protection, lubrication or cooling devices and other equipment that should be activated automatically, is ensured in all cases, checking that it is necessary to manual boot if necessary.
CR4.5 Communication with the civil authority and with the competent hydrographic confederation is done to coordinate actions against emergency situations.
CR4.6 The experiences acquired in unforeseen and anomalous situations are used to propose improvements in the performance procedures in these cases.
Professional Context
Production media
Control room or control room, devices, and equipment. Systems for monitoring the process and continuous monitoring of equipment. Protection and alarm systems. Field instrumentation. Communication equipment and systems. Simulators for practices. Emergency equipment or devices.
Products and results
commissioning of the plant and response to the demands for load variation or voltage control meeting the quality requirements of the generation dispatch and, where appropriate, the station's stop until achieving the safe condition, all of which minimises the risk to people, the environment or the facilities, achieving the highest reliability of the process and the best energy efficiency. Technical documentation-specifications, plans, instructions, procedures-and historical databases, updated.
Information used or generated
Specific documentation: Manuals of instructions, operating procedures, alarm books, plans and schemes: mechanical plans and schemes, flow diagrams, electrical schemes, automatic diagrams. Documentation on risk assessment and preventive planning. Documentation of the emergency plans. Technical data sheets on risks and action on the basis of the substances involved. Reports.
Competition Unit 3
Naming: OPERATE IN PLANT AND PERFORM FIRST-LEVEL MAINTENANCE OF HYDROELECTRIC POWER PLANTS
Level: 2
Code: UC1529_2
Professional realizations and realization criteria
RP1: Operate the systems, equipment and instruments of hydroelectric power plants under normal operating conditions and in the start and stop processes.
CR1.1 Equipment and instruments related to dam, reservoir and water supply systems are operated according to established procedures.
CR1.2 Turbine-related equipment and instruments and their lubrication, control and protection systems are operated according to established procedures.
CR1.3 The equipment and instruments related to the alternator, its excitation, cooling system and other auxiliary equipment are operated according to established procedures.
CR1.4 Equipment and instruments related to the electrical systems of AT-substation-BT, continuous current and secure voltage are operated according to established procedures.
CR1.5 Control-related equipment and instruments and their auxiliary systems are operated according to established procedures.
CR1.6 Water tap grids, decanting systems, filters, scrubbers, and other water treatment related equipment and systems are operated according to established procedures.
CR1.7 Data collection by means of checklists, as well as possible detected dysfunctions and the transfer of information to management systems, are carried out and communicated with the necessary readiness to ensure the proper operation of the plant.
RP2: Prepare and organize the first level maintenance work of hydroelectric power plant installations in accordance with established guidelines and specifications.
CR2.1 The different components of the installation are identified and their placement is located from the instructions received or from the technical plans and specifications.
CR2.2 The technical drawings and specifications of the equipment and facilities to be maintained are identified and interpreted to clearly and accurately understand the performance to be performed and to establish the sequence of maintenance intervention, optimizing the process in terms of security, method and time.
CR2.3 The sequence of maintenance tasks is set from instructions, plans, and technical documentation, optimizing the process in terms of security, method and time.
CR2.4 The required materials, tools, equipment, and other technical resources are selected according to the type of task to be performed.
CR2.5 The work area is prepared according to the requirements of the plant itself and according to established work procedures.
RP3: Act according to the company's security plans, 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 hydroelectric power plants.
CR3.1 Professional, thermal, mechanical, electrical, or other risks are identified according to the safety plan, before starting the maintenance of the equipment of the plant.
CR3.2 The means of protection, in the face of risks arising from maintenance, are appropriately selected to avoid accidents.
CR3.3 The work areas of your responsibility are maintained in order and cleaning conditions in order to avoid accidents.
CR3.4 In cases of emergency, action is taken quickly, effectively and safely following the action protocol adapted to the situation.
RP4: Perform first-level preventive maintenance operations, related to the management of the operation of hydroelectric power plants from planes, standards and technical specifications, for their optimal operation, in compliance with the regulated requirements, under the established quality and safety conditions.
CR4.1 Oil grease and change are performed according to the established procedures and the required safety conditions.
CR4.2 The cleaning operations of grids, equipment and installations are performed with the appropriate means and according to established procedures.
CR4.3 The tightness and the absence of corrosion of the equipment and facilities is checked with the corresponding periodicity.
CR4.4 The thermal and electrical insulation status of the equipment and facilities is checked at the appropriate periodicity.
CR4.5 The noise and vibration level of mechanical equipment is inspected and checked with the corresponding periodicity.
CR4.6 Environmental control related equipment and facilities are maintained in compliance with the regulated requirements, under the established quality and safety conditions.
CR4.7 The equipment and tools used are reviewed and maintained in a perfect state of operation.
CR4.8 The results of the maintenance interventions performed are collected in the corresponding report.
RP5: Perform first-level corrective maintenance operations at hydroelectric power plants, determining the performance process, using instruction manuals and drawings, and resetting the functional conditions with the required quality and safety.
CR5.1 The different breakdowns are detected, interpreted, and information is provided to assist in the initial assessment of their causes.
CR5.2 The sequence of actions for repair is established by optimizing the process in terms of security, method and time, selecting the necessary equipment, tools, materials, tools, and auxiliary means.
CR5.3 The repair or replacement of consumables and other deteriorated basic elements is carried out in accordance with the sequence of the disassembly and assembly process established, within the prescribed time and with the required quality, checking its operation.
CR5.4 Installation functionality is restored with the required speed, quality and safety.
CR5.5 The parts and reports of the repair performed are completed according to the established procedures.
Professional Context
Production media
Equipment for material movements. Measuring equipment and apparatus: electric polymeter, contact thermometer and others. Current-use electromechanical tools and tools. Communication equipment and systems. Signalling elements. Equipment and waste collection points. Personal security equipment.
Products and results
Plant-operated and maintained hydro-power plant installations.
Information used or generated
Instructions manuals provided by the manufacturer or supplier. Projects, set and cutting plans; isometric plans; schemes and diagrams of principle; listing of parts and components; maintenance programmes, parts of work; technical specifications; catalogues; service and use manuals; Instructions for assembly and operation; databases; computer software; UNE standards, thermal regulation, electrical regulation, environmental regulations, safety regulations. Reports.
Competition Unit 4
denomination: COORDINATE AND PREPARE THE HUMAN TEAM INVOLVED IN THE AREA OF OPERATION OF THE POWER PLANTS
Level: 3
Code: UC1200_3
Professional realizations and realization criteria
RP1: Collaborate on the continuous process of training and preparation of the human team, which under its responsibility, operates in a power plant.
CR1.1 The competencies and responsibilities of team members are clearly identified, establishing the professional relationships between them.
CR1.2 The overall objectives of the power plant and the objectives of the human operation team are known and interpreted by all its members.
CR1.3 The components of the team receive the necessary encouragement to actively participate in the achievement of these objectives and to propose and adopt the appropriate improvement activities.
CR1.4 The content of operating procedures and instructions, test protocols, proof of protection devices, checklists and other relevant information is disseminated to ensure their understanding and correct use and, where appropriate, is updated on the basis of the experience gained.
CR1.5 The training of new or in-training staff is strictly addressed, providing the data and guidance required for the performance of their duties.
RP2: Ensure communication between the components of the equipment and between the successive teams covering the continuous day, in turn, in the operation of a power plant.
CR2.1 The coordination and transmission of information with the technicians responsible for the operation and with plant operators is performed with punctuality, efficiency and rigour.
CR2.2 Detected uncertainties or significant incidents are identified and investigated, ensuring that any relevant information is transmitted to the incoming team.
CR2.3 The relay between successive shift equipment is carried out in an in-person manner, in the appropriate place and using the time necessary for any incident, anomaly or relevant information to be transmitted clearly and rigor, as per the established protocol.
CR2.4 The dissemination of the content of the failure reports generated through the quality management systems is ensured in order for the experiences to be shared by the operation team in their integrity.
RP3: Collaborate in the coordination of the tasks of the service of operation with the tasks of the services of maintenance, environment, quality management and chemistry.
CR3.1 The collaboration in the coordination of the works to be carried out by the services of maintenance, surveillance and auscultation of dams, quality control, chemistry and environmental control, is carried out for its execution is adapted to the most appropriate conditions of the plant, gear, reduced load, short stop or long stop, in order to avoid harmful delays or interference.
CR3.2 The progress of the work done is monitored, checking the incidents and meeting the expected deadlines and reporting any eventuality that may alter the forecast of availability that the Energy management dispatch needs to be known promptly.
CR3.3 Final acceptance and compliance tests performed in accordance with the established quality plan of the plants, and equipment or circuits are appropriately prepared for their use. putting into service.
CR3.4 The corrective or preventive measures to be implemented when coordination mismatches are detected between the areas of operation and other services involved are determined by acting in accordance with the company or the quality management system used.
CR3.5 Collaboration in the control of the works awarded to external companies is carried out by ensuring compliance with deadlines, quality criteria and programmed budget.
Professional Context
Production media
Integrated quality management system, environment and prevention. Maintenance management system. Training and skills development plans. Documentation management system.
Products and results
Ready, committed, reliable and secure human team. Jobs of supervised subcontracted companies.
Information used or generated
Documentation of the integrated system of quality management, environment and prevention. Training manuals. Instruction manuals and own documentary file of the area of operation. Training programmes to be developed in the workplace. Work specifications for companies.
Competition Unit 5
Naming: PREVENTING RISKS IN HIGH VOLTAGE ELECTRICAL INSTALLATIONS
Level: 2
Code: UC1530_2
Professional realizations and realization criteria
RP1: Identify and assess the occupational risks arising from work in the presence of electrical stress, and promote safe behaviour in the area of its competence for its implementation in the determination, establishment and adoption of appropriate measures to safeguard the health and safety of workers, the environment and facilities.
CR1.1 Safe behaviors are promoted among staff to foster workers ' interest and cooperation in preventative action.
CR1.2 Information and recommendations on job security and risk prevention are transmitted.
CR1.3 Basic preventive actions such as order, cleaning, signaling, and general maintenance are encouraged and monitored and monitored.
CR1.4 The place was worked and its surroundings are reviewed, in the field of its competence, to check the conditions of noise, ventilation, lighting, temperature, among others, and, if necessary, the person responsible is informed and the action procedures provided for in the risk prevention plan are applied.
CR1.5 The specific occupational risks related to works referred to as proximity to electrical voltage installations are identified and evaluated, proposing, where appropriate, preventive measures to eliminate or decrease them.
CR1.6 The specific occupational risks related to static electricity are identified and evaluated by linking them to their influence on the risks of explosion, proposing, where appropriate, preventive measures that remove or decrease them.
CR1.7 The specific professional risks related to the management of hexafluoride and other components of GIS technology are identified and evaluated, proposing, where appropriate, preventive measures to eliminate or decrease them.
CR1.8 The most frequent professional risks present in the management of portable tools and equipment used in the work in the presence of electrical voltage identify and evaluate, proposing, where appropriate, measures preventive to remove or decrease them.
CR1.9 The risks related to the maneuvers to connect or leave without electrical voltage an installation are identified and evaluated, proposing, if necessary, preventive measures that eliminate or decrease the same.
CR1.10 The risks arising from the replacement of fuses and other manoeuvres, measurements, tests and verifications at high voltage installations are identified and evaluated, proposing, where appropriate, preventive measures remove or decrease them.
CR1.11 The signaling of drivers, pipes, appliances, and equipment of the high voltage installations is identified and interpreted.
CR1.12 The risks identified and the proposals for preventive measures provided by workers are collected through participation in meetings, surveys and other procedures, with the transmission of higher by the established paths.
RP2: Control the occupational risks arising from the work in the presence of electrical voltage applying the corresponding preventive measures to safeguard the health and safety of the workers, environment and facilities.
CR2.1 The work method employed and the equipment and materials used are proven to ensure worker protection against electrical risk, ensuring that the operator cannot accidentally contact any other element to potential other than yours.
CR2.2 Screens, covers, pods and other insulating fittings are used in the coating of active parts or masses.
CR2.3 The tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms, gloves, goggles, screens, helmets and other tools and equipment for individual protection against electrical risks they choose to take into account the characteristics of the work and the service voltage, using them according to the manufacturer's instructions.
CR2.4 Job position lighting ensures that you can perform the work in appropriate visibility conditions.
CR2.5 Bracelets, watches, metal zip chains or closures, and other conductive objects that may be accidentally contacted with elements in tension are kept out of the work zone.
CR2.6 The work zone is signposted so that other workers or outsiders do not penetrate the zone and access elements in tension.
CR2.7 Heavy rain or wind, snow, storms and other unfavorable environmental conditions are taken into account even for the suspension of work.
RP3: Follow the established security protocol for the process aimed at leaving an installation without electrical voltage and in its subsequent reorder after the intended interventions are completed.
CR3.1 The part of the installation on which the job is to be performed is isolated from all power supplies.
CR3.2 The maneuvering devices used to disconnect the installation are secured against any possible reconnection, by blocking the mechanism and signaling the prohibition of the corresponding maneuver.
CR3.3 The correct operation of the stress absence verification devices is checked before proceeding to its use and after the stress absence verification.
CR3.4 The absence of tension is verified on all the active elements of the installation.
CR3.5 The parts of the installation where you are going to work are grounded and short-circuit, ahead and behind the work zone, making sure this connection is visible from the workplace.
CR3.6 The grounding is assured to remain properly connected during the time the job is performed.
CR3.7 The work zone is protected against upcoming items in tension, delimited, and security signage is set.
RP4: Manage and maintain in perfect state of use the safety and personal protection equipment used in electrical installations, as well as to promote their use, to guarantee their effectiveness and adaptation to the rules in force.
CR4.1 General personal protective equipment and work clothes are identified and selected according to the needs of the activity and in the regulatory conditions.
CR4.2 The specific safety equipment for the control of falls, such as harness, anti-cancer belt and safety rope are identified and managed taking into account the current regulations.
CR4.3 The tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms and other performance tools in electrical installations are maintained according to the manufacturer's instructions.
CR4.4 Individual protective equipment is reviewed regularly, reporting deteriorated or unfit items for purchase and replacement.
CR4.5 The operation of the telecommunication media is checked and guaranteed in all cases.
CR4.6 The use of security and personal protection equipment is promoted among staff to encourage the interest and cooperation of workers in preventive action.
RP5: Acting in emergency and first aid cases quickly, effectively and safely, managing the first interventions to the effect and coordinating with those responsible and emergency services, applying the techniques and required protocols in each situation.
CR5.1 The information channels and means available for emergency actions are identified in advance by ensuring that they are fully operational.
CR5.2 Fire fighting equipment, alarm means, evacuation routes and emergency exits are checked, checking that they are well signposted, visible and accessible, to act in situations of emergency and in accordance with the regulations.
CR5.3 The responsibility of first-intervention team leader, if applicable, is assumed with warranty.
CR5.4 The protection of the crashed and the isolation of the cause causing the accident is done immediately.
CR5.5 The assessment of the emergency is performed by following the procedures defined in the security regulations.
CR5.6 The request for emergency assistance is made as set out in the security plan and in the current regulations, ensuring, in any case, the speed and effectiveness of the emergency plan.
CR5.7 First aid is provided according to the prescribed health recommendations for each case.
CR5.8 Emergency tests or drills are performed periodically according to established schedule.
RP6: Collaborate with the personnel responsible for the job risk prevention plan in managing the plan.
CR6.1 The collaboration in controlling the general and specific risks and in the updated maintenance of the company's occupational risk prevention plan is done.
CR6.2 Experiences acquired in unforeseen and anomalous situations are used to propose the review of the safety measures set out in the risk prevention plan and improvements in procedures and procedures. instructions for action in these cases.
CR6.3 Complaints or suggestions regarding safety and prevention aspects are addressed, recorded and channeled to the personnel responsible for the risk prevention plan.
CR6.4 The collaboration with the security officer in carrying out training, practices, drills and management of signalling equipment, protection, confinement and extinction and in the dissemination of the master lines the emergency plans are carried out at the required frequency.
Professional Context
Production media
Work tools, tools, and measuring devices. Equipment for the movement of materials, cranes, tros, hoists, hydraulic jacks; hand tools, dynamometer keys, maces, level, thickness meter, electric drill, hydraulic terminal tenures, polymeter, meter isolation, tellurometer. Personal and collective protective equipment. Security features. Personal safety equipment and specific auxiliary systems for the lump-sum and reduction of equipment and tools. Means of detection and extinction of fires. Means of evacuation, action and first aid. Telecommunications systems. First aid kit. Ergonomic elements of a job. Telecommunications systems. Protection against lightning, security and surveillance systems.
Products and results
Professional risks derived from actions in identified and controlled electrical installations, acting in emergency cases and applying first aid if necessary. Supervised and informed staff. Reliable and secure work environments.
Information used or generated
Safety plan in the mount. Safety plan for the maintenance of power stations and substations. Safety manual for the maintenance of transformers; first aid manual; projects, plans of assembly and detail; instructions for assembly and operation; UNE standards, electrical regulations, environmental regulations, security regulations.
III. TRAINING OF THE CERTIFICATE OF PROFESSIONALISM
FORMATIVE MODULE 1
Naming: PLANT CONTROL OF OPERATION AND MAINTENANCE OF HYDROELECTRIC POWER PLANTS
Code: MF1527_3
Professional qualification level: 3
Associated with the Competition Unit:
UC1527_3 Control plant operation and maintenance of hydroelectric power plants
Duration: 210 hours
FORMATIVE UNIT 1
Denomination: PLANT MONITORING OF EQUIPMENT AND INSTALLATIONS OF A HYDROELECTRIC POWER PLANT AND PROCESS PARAMETERS
Code: UF1766
Duration: 90 hours
Competition reference: This training unit corresponds to the professional realizations RP1 and the RP2 as regards the monitoring of parameters of the process without exercise by the personnel.
Assessment Capabilities and Criteria
C1: Check and monitor the operation of hydroelectric power plants by identifying the different systems involved, their technical characteristics, functions, relevant operating parameters and regulations or regulations associated.
CE1.1 Resend the different electricity production systems, reasoning the types of transformations involved, characterizing the equipment used in the same.
CE1.2 Detailed the overall functioning of the hydroelectric production and the technological systems involved.
CE1.3 Detailed the general organization of hydroelectric power plants and the basic functions that compete with the different areas of responsibility: operation, maintenance, monitoring and auscultation of dams, quality control, environmental control and risk prevention.
CE1.4 Highlight possible interference in the performance of the responsibility in the different areas and define the general lines to coordinate the performance of these areas according to the priority of the work and the conditions of the plants of the plants.
CE1.5 In a dam and reservoir system:
-Drill down the overall system configuration.
-Describe the types of dams and the relief, bottom and half-bottom drains, inspection galleries, fish scale, and other associated elements.
-Interpret the operation of the dam and reservoir system in its operation, as well as analyze and identify the various components of the instrumentation and control system.
CE1.6 Specify the general arrangement and functions of small water treatment plants of hydroelectric power plants: raw water, water treatment systems, discharge water treatment systems, and systems for effluents control.
CE1.7 Explain the functions of the main systems and equipment of the hydraulic-alternator hydraulic group, in the various operating modes:
-Turbine system.
-Alternator system.
-Excitation system.
-The cooling and sealing system of the alternator.
-Group injection and lubrication system.
CE1.8 Describe the functions of auxiliary systems and equipment: cooling, service water, compressed air, and instrumentation air.
CE1.9 Relating control and control systems and control ties of a hydroelectric power plant: control of power water system, fluid system of turbine control, pressure and temperature control, load control and voltage control.
CE1.10 To describe in general terms a typical electrical scheme of a hydroelectric plant including the systems of high and low voltage, lighting, public address and telephony, telemando, the auxiliary systems and services of c.a., c.c. and auxiliary groups, secure tension and their utilities.
CE1.11 Describe the environmental control systems of dams, reservoirs and hydroelectric plants, ecological flows, the types of pollutant discharges, and the technologies available for reduction.
CE1.12 In a case or case scenario, a hydroelectric power plant installation is properly characterized by drawings and manuals.
-Interpret the technical documentation provided and locate the different installations, systems, and equipment.
-Establish relationships between the different systems, facilities, and teams involved.
-Specify test criteria for the operation of the different equipment and facilities located on the plant of the plant.
-Develop a facility monitoring program at the site of a plant.
-Draw up a report on the central operation status of the site.
C2: Define the procedures for operating the equipment in the ordinary operation of a hydroelectric power plant, considering the evolution of the main parameters.
CE2.1 Specify procedures to check the status of equipment or systems: what is the position of drains and gates, levels, operation of lubrication and cooling systems, state of the instrumentation and the power supply.
CE2.2 Determine the allowable values of temperatures, levels, flow rates, consumption, and other relevant parameters.
C3: Diagnose operation and dysfunctions in hydroelectric power plants by analyzing the operating parameters.
CE3.1 Relate the main parameters involved in the operation of hydroelectric power plants.
CE3.2 Describe the procedure to be followed in the process of diagnosing dysfunctions in hydroelectric power plants.
CE3.3 In a scenario or scenario using a simulator:
-Collect the data using the appropriate checklists.
-Transfer the data obtained according to the established procedure to the management system.
-Perform the validation of the quality of the data obtained by analyzing the trends later.
-Perform a report according to the procedure set.
-Select which parameters are out of range indicating possible causes and likely effects of the current situation.
Contents
1. Mechanical and hydraulic fundamentals of hydroelectric power plants
-Materials. Structure, mechanical properties and homogeneity defects.
-Corrosion phenomena in metal materials.
-Properties, static, and fluid dynamics.
-Hydrostatic and hydrodynamic.
-Experimentation in fluid mechanics. Similarities and model theory.
-Resistance of fluids. Laminar regime and turbulent regime. Surface resistance: Piping and canals. Holes, pipes, nozzles and landfills.
-Overpressure and depressions in hydraulic structures and machines: battering ram and cavitation.
-Hydraulic machines: Classification. Turbines, pumps, valves, fans.
-Interpretation of mechanical and hydraulic system plans and schemes.
2. Electricity fundamentals in hydroelectric power plants
-Nature of electricity. Properties and applications.
-Electrical current. Electrical magnitudes.
-Magnetism and electromagnetism. Electromagnetic induction.
-Electric circuits. Structure and components. Symbology and graphical representation.
-Three-phase electrical systems.
-Protection systems. Grounding installations.
-Static and rotating electrical machines. Typology and features. Generators, transformers and engines.
-Acumulators and rectifiers.
-Measures of electrical measures. Procedures. Measuring instruments. Errors to the measure.
-Electrical safety.
-Electrical device. Control switches.
-Interpretation of plans and schemes of electrical systems.
3. Configuration and processes of hydroelectric power plants
-Types of dams and associated elements: Concept and functions of the dam. Structural areas. Classification. Relief. Tanks or cargo chambers. Channels. Forced pipes. Balancing chimneys. Bottom and half bottom drains. Inspection galleries. Scale of fish.
-Operation of the dam and reservoir in normal operation: Functions, general description, system components, instrumentation and control, and modes of operation.
-Classification of hydroelectric power plants.
-Components of hydroelectric power plants: Devices for opening, closing and regulating the passage of water. Relief and drains. Hydraulic turbines. Alternators, transformers, auxiliary services (c.a. and c.c.). A.T. parks
-Processes of a power plant in operating system and fundamental parameters that control the operation service.
-Projects, memories, plans, and operation manuals.
-Symbolic planes, schemas, and logical diagrams, control ties. Diagrams, flowcharts, and timelines.
4. Rules applicable to hydroelectric power plants
-Regulations on power plants, substations and transformation centres. Low Voltage Electrical Regulation.
-Application standards for pressure equipment.
-Security regulations. Environmental regulations. Binding UNE rules.
5. Main functions and equipment in stable operation of hydroelectric power plants
-Constitution and functions of major hydroelectric power plant equipment and systems:
-Comgates and ataguias. Bombs. Valves. Fans.
-Hydraulic turbines, usual types of turbines. Features.
-Alternators: excitation, cooling system and alternator sealing. Group transformers.
-Lubrication, cooling and bearing seal systems.
-AT-substation electrical systems, BT, continuous current and secure voltage.
6. Diagnostic parameters in functions and auxiliary equipment of hydroelectric power plants
-Constitution and functions of water treatment systems, systems for control and treatment of effluents.
-Constitution and functions of the auxiliary services systems of c.a., c.c. and auxiliary groups, safe tension and their utilities.
-Auxiliary systems and equipment: public address and telephony, telemando, cooling aids, service water, compressed air and instrumentation, lighting and auxiliary groups.
FORMATIVE UNIT 2
Naming: MONITORING IN THE PLANT OF PERFORMING MANOEUVRES, TESTING OF EQUIPMENT AND SYSTEMS, AND RUNNING OF DISCARDS
Code: UF1767
Duration: 60 hours
Competition reference: This training unit corresponds to the professional realizations RP3, RP4, RP2 as regards the checks carried out on a non-permanent basis or on manoeuvres carried out by the personnel and RP6 as regards the performance of manoeuvres, testing of equipment and systems and the execution of discards.
Assessment Capabilities and Criteria
C1: Define the procedures for operating the equipment during the start and stop of the turbine-alternator group of a hydroelectric power plant.
CE1.1 Specify the procedures for preparing the equipment or systems, fulfilling all the necessary conditions for their starting or stopping in a safe condition.
CE1.2 Drill down the sequence of maneuvers to be performed on electrical switches and dryers, gates, valves and other components as set out in the procedures, with the required safety measures and in coordination with the controllers of the control center.
CE1.3 Value and relate the requirements of times to use, rhythms, adjustments and limitations of the conditions of the turbines and other fundamental equipment, determining the permissible values of the temperatures, of the expansions differentials and other relevant parameters during transients.
CE1.4 Define possible anomalous or potential risk situations for people or for process stability and installation during transient maneuvers, describing the measures to be taken to recover the secure condition.
CE1.5 Drill down the alert activation processes and the coordination tasks of immediate actions to prevent risks.
C2: Define the protocols and procedures used for periodic testing and temporary disabling of equipment in hydroelectric power plants.
CE2.1 Determine the procedure for downloading or disabling a computer or system to ensure the necessary security for people, the environment, equipment and the process.
CE2.2 Define the checks and tests to be performed on a disabled computer or computer and the required signage.
CE2.3 Explain the coordination requirements with other personnel to ensure safety in the performance.
CE2.4 Determine the checks and protocols to be followed prior to the putting into service of a team whose temporary disclaimer or disablement has been cancelled.
CE2.5 In a case or case scenario, installation of a hydroelectric power plant is properly characterized by the installation plans and manuals.
-Drill down the tests to be performed on each of the considered equipment.
-Relate the so-called five gold rules in performing electrical voltage-related jobs.
-Describe procedures for electrically isolating and grounding equipment.
-Set coordination protocols with other personnel involved.
-Define the signaling requirements, interlocking of moving parts, and other factors that facilitate the operation of the equipment safely.
-Set the procedures for the commissioning of the equipment.
C3: Perform manoeuvres and correct dysfunctions in hydroelectric power stations.
CE3.1 In a scenario or scenario using a simulator:
-Identify, by means of simulation, anomalies in the operation of valves, gates, ataguias, regulators, electrical switches, pumps and other operating and control elements of a hydroelectric power plant.
-Perform in the simulator turbine shooting maneuvers, synchronization maneuvers, uncoupling and load variations, detecting the disfunctions and imbalances that occur.
-Use the documentation related to the detected dysfunction with dexterity.
-Clear and concise describe the detected problem and other information to be transmitted to the control center.
C4: Detailed conditions and procedures to ensure the safety required in the operation processes and the discharge of hydroelectric power plants.
CE4.1 Interpret the regulations and security plans applicable to the operation of a hydroelectric power plant.
CE4.2 Define and assess the professional risks arising from the operation of hydroelectric power plants.
CE4.3 Describe and characterize the different safety and personal protection equipment used in the different operation tasks in hydroelectric power plants.
CE4.4 Describe and characterize the different signaling elements that must exist in the vicinity of a hydroelectric plant and the risks related to wild animals and intruders, among others.
CE4.6 Describe the security elements used in the operation of valves, pumps, gates, ataguias, and auxiliary systems.
CE4.7 Describe the security elements used in the operation maneuvers in the turbogenerator group and auxiliary systems.
CE4.8 Describe the operations required to control and reduce electrical risks during operation maneuvers.
CE4.9 Describe the operations required to control and reduce the risks of mechanical origin derived from operating maneuvers.
CE4.10 Relate hazardous substances and materials present in hydroelectric power plant facilities by determining the necessary precautions in each case.
CE4.11 Develop measures for the information and dissemination of risk prevention in the various maneuvers performed at the plants ' facilities.
Contents
1. Systems and main equipment in the transitional operation of hydroelectric power plants
-Speed control systems according to load demand requested from the group. Automatic speed regulators for stable situation, transient speed variations, maximum transient variation of speed and speed of packing (depending on type of turbine). Over-speed disconnect control.
-Protections of hydraulic turbines and their equipment. Mechanical protection (temperatures, pressures, levels, flow rates, speed). Electrical protection (alternator, group transformer, auxiliary systems c.a. and c.c., and electrical park systems and components).
-Devices for rotor position monitoring, differential expansions and turbine and alternator voltages, during shooting or stopping, and in load changes.
2. Main procedures in hydroelectric power plants
-Operations for replacing the air with hydrogen in alternators and vice versa.
-Regular testing of plant reservation protection and equipment.
-Turbine boot.
3. Professional waterworks in hydroelectric power plants
-Technology processes and risk identification.
-Security manual.
-Risks of mechanical origin.
-Electric-type hazards. The "five golden rules" for working in electrical installations.
-Risks associated with hazardous substances and materials.
-Prevention and control of professional risks in operation maneuvers of gates and ataguias, motors, pumps, valves, compressors and fans.
-Prevention and control of professional risks in the operation maneuvers of the turbogenerator group.
4. Discards or isolation or temporary disabling of equipment or systems
-Electrical and mechanical insulation of equipment and protection of persons and equipment.
-Download procedure:
-Downloading Need
-Request and communications
-Locks
-End of jobs, equipment testing, and discard removal
FORMATIVE UNIT 3
Naming: ORGANIZATION AND MONITORING OF MAINTENANCE IN HYDROELECTRIC POWER PLANTS
Code: UF1768
Duration: 60 hours
Competition reference: This training unit corresponds to RP5 and RP6 for maintenance work.
Assessment Capabilities and Criteria
C1: Establish procedures for the organization and supervision of the maintenance of hydroelectric power plants.
CE1.1 Interpret the technical and administrative documentation by identifying the different systems and equipment of the plant.
CE1.2 Determine the tools, documentation, and equipment needed to perform the maintenance operations of the different systems and equipment of the plant.
CE1.3 Set criteria for checking the overall status of equipment and facilities in terms of tightness and corrosion.
CE1.4 Set verification criteria on the duplicate computers and the maneuvers to be performed for rotation.
CE1.5 Develop a relationship of warehouse materials and equipment used in maintenance, determining the limited shelf life elements and reorder criteria.
CE1.6 Describe channel and grid cleaning operations, debase, cleaning and grease of equipment and facilities with appropriate media and according to established procedures.
CE1.7 Determine the security measures required in performing maintenance operations.
CE1.8 Compose the report corresponding to the results of the inspections and operations carried out according to the maintenance plan and procedures usually established in the companies.
CE1.9 In a case or case scenario, of a hydroelectric plant installation, duly characterized by the installation plans and manuals.
-Perform a general description of the facilities, indicate their location, and interpret the technical and administrative documentation received.
-Develop a relationship of the equipment and systems that can be maintained in the plant itself.
-Determine the equipment and tools required for routine and general maintenance.
-Set the health check criteria for the different systems and equipment in the facilities of the plant.
-Rate that the maintenance operations of hydroelectric power plants and control centers are carried out in accordance with established procedures and safety and environmental standards.
-Develop a maintenance organization guidelines manual.
-Systematize the collection of information and communication according to the maintenance plan and procedures usually established in the companies.
C2: Detailed conditions and procedures to ensure the safety required in carrying out maintenance tasks for hydroelectric power plants.
CE2.1 Interpret the regulations and safety plans applicable to the maintenance maneuvers of a hydroelectric power plant.
CE2.2 Define and evaluate the professional risks arising from the maintenance maneuvers of hydroelectric power plants.
CE2.3 Describe and characterize the different safety and personal protection equipment used in the different maintenance tasks in hydroelectric power plants.
Contents
1. Functional systems of hydroelectric power plants relevant to maintenance
-Continuous monitoring systems for rotating machines.
-vibration analysis in mechanical protections.
2. Organisation of the maintenance of hydroelectric power plants
-Maintenance. Function, objectives, and types.
-Planning and scheduling maintenance. Maintenance plans.
-Calculation of needs. Load planning. Determination of times.
-Documentation for scheduling and scheduling. The work order.
-Optimization of maintenance. Quality in service delivery.
3. Maintenance operations in hydroelectric power plants
-Preventive maintenance operations in hydroelectric power stations.
-Corrective maintenance operations in hydroelectric power stations.
4. Safety equipment in the maintenance of hydroelectric power plants
-Automatic security systems and computers.
-Individual protective equipment.
-Auxiliary security teams.
-Lifting loads.
-Signage systems.
-Maintenance of security equipment.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº 90 | |||||||
|---|---|---|---|---|---|---|---|---|
|
| 90 | 90 | 90 | 90 | 90 |
| ||
| 60 | 40 | |||||||
|
Formative Unit 3-UF1768. | 60 | 40 |
Sequence:
To access the formative unit 2 must have been passed the formative unit 1. To access the formative unit 3 must have been passed the formative unit 2.
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 2
Naming: HYDROELECTRIC POWER STATIONS
Code: MF1528_3
Professional qualification level: 3
Associated with the Competition Unit:
UC1528_3 Operate from the control center hydroelectric power stations
Duration: 150 hours
FORMATIVE UNIT 1
Denomination: CONTROL OF OPERATION PARAMETERS OF DIFFERENT HYDROELECTRIC POWER PLANTS FROM A CONTROL CENTER AND PERFORMING ORDINARY MANEUVERS
Code: UF1769
Duration: 90 hours
Competition reference: This formative unit corresponds to the professional realizations RP1, RP3, and RP2 as regards the ordinary maneuvers, excluding those failure response maneuvers.
Assessment Capabilities and Criteria
C1: Interpret the operating parameters of the different equipment and systems of a hydroelectric power plant, in a control simulator.
CE1.1 To describe at the basic level the functioning of the national electricity system from the organizational points of view-generation market, market players, market operator, system operator, generation office, or Energy management-and technical-frequency/power concepts, primary, secondary and tertiary regulation, voltage control, communication with generation dispatch, importance of compliance with committed load programs.
CE1.2 Interpret the hydraulic parameters of the different controlled installations from the control center.
CE1.3 Interpret the electrical parameters of the different controlled installations from the control center.
CE1.4 Interpreting from information obtained by SCADA systems the operational situation of turbines, generator, bearings, distributor, servomotors, pumps, compressors, drains, electrical systems, control systems, instrumentation and other equipment and systems of hydroelectric power plants.
C2: Describe the start, stop and load changes in hydroelectric power stations, in a simulator, identifying the expected sequence and behavior of the different systems and equipment.
CE2.1 Define the usual operations to be performed on a dam and reservoir system.
CE2.2 Expose the different operating anomalies in the dam and reservoir system.
CE2.3 Describe the operations to be performed for the hydraulic tests of the turbine as well as the operations for filling, venting or drainage of the turbine, balance of pressures before the controlled opening of the valve and gate.
CE2.4 Specify the balancing checks and operations to be performed on the sealing equipment, the guide bearings, the push bearings and the pressure oil system to ensure the group axis situation hydraulic.
CE2.5 Explain the operations to be performed, parameters to be monitored and expected result at the opening of the valve and/or gate for the start of rotation of the turbine, in the flow regulators depending on the type of turbine, in the distribution system and servomotors and in the speed regulators until the speed of synchronism is achieved.
CE2.6 Define the requirements and operations to be performed to synchronize the parameters of the power system from the central to the evacuation network.
CE2.7 Describe the usual operations and checks to be performed on high and low voltage and continuous current systems.
CE2.8 Describe the usual operations and checks to be carried out on the auxiliary systems for the transmission, cooling aids, service water, compressed air and instrumentation air.
CE2.9 Justify and relate the operations to be performed and the expected behavior in the environmental control systems.
CE2.10 Describe any operation or monitoring tasks from the dashboards of the control center at the request of those responsible for the control room according to the instructions received.
C3: Operate the different elements of a hydroelectric plant, in a telecontrol simulator, controlling the consequences of each performance.
CE3.1 Actioning and controlling equipment and instruments related to dam, reservoir and water supply systems according to established procedures.
CE3.2 Actioning and controlling equipment and instruments related to turbines and their systems of lubrication, control and protection according to established procedures.
CE3.3 Actioning and controlling the equipment and instruments related to the alternator, its excitation, cooling system and other auxiliary equipment according to established procedures.
CE3.4 Actioning and controlling equipment and instruments related to AT-substation electrical systems, BT, continuous current and secure voltage according to established procedures.
CE3.5 Operate equipment and instruments related to ancillary systems according to established procedures.
CE3.6 Operate water treatment related equipment and systems such as water outlet grids, decanting systems, filters, scrubbers, and others, according to established procedures.
CE3.7 Compose the report for the results of the operations performed.
CE3.8 Describe the criteria to be taken into account in the coordination of periodic testing and the temporary disabling or discarding of equipment.
C4: Detailed the usual configurations of the control rooms of the hydroelectric power plants, identifying the different components and their function, to control the operation maneuvers to be performed.
CE4.1 Identify and locate the different zones and the different elements of a control room.
CE4.2 Interpret the information reflected in measuring instruments, indicator devices, and other control room operating elements.
CE4.3 Justify for each type of maneuver the operations to be performed from a control room.
CE4.4 Identify and differentiate the roles of people involved in operations from the central operation of the plants.
Contents
1. Operation parameters of monitored hydroelectric power plants from a control centre
-Mechanical parameters:
-Pressure and flow measures. Load losses. Battering ram and cavitation.
-Hydraulic machine parameters: turbines, pumps, valves.
-Control through central synoptics. Interpretation of parameters.
-Electrical parameters:
-Measures and indications of voltage, current, power.
-Electromagnetism. Electromagnetic induction. Excitation.
-Electric circuits. Three-phase electrical systems.
-Control and monitoring of electrical machines: transformers, motors, generators.
-Electrical device maniwork. Switches.
-Interpretation of planes and electrical schemes.
-Consideration from a hydraulic power plant schema control center:
-General disposal of dams and hydroelectric power plants.
-Dam elements: relief, cargo chambers, channels, forced pipes, balancing fireplaces, bottom and half-bottom drains, inspection galleries.
-Components of hydroelectric power plants: devices for opening, closing and regulating the passage of water, relief and drainage, hydraulic turbines, alternators, transformers, auxiliary services (c.a. and c.c.), AT.
2. Centres and control rooms in hydroelectric power stations
-National electrical system.
-Multi-center control centers. Hydroelectric power plant control rooms.
-Location. Component disposition.
-Monitoring the process. Interpretation of indicator parameters.
-Simulation and operation on the system.
-Maniworks of load variation.
-Control room staff. Functions.
-Communication systems. Protocols.
-Procedures documentation.
-Coordination of periodic tests. Disabling equipment
3. Process for starting and stopping hydroelectric power stations
-Operation of the dam and reservoir system in starts and stops: Functions, general description, system components, instrumentation and control, and modes of operation.
-Flow opening process. Process of closing the flow.
-Service water circuits, oil and instrumentation air: preparation and commissioning.
-Checking and operating the auxiliary systems.
-Fill and drain of the turbine system.
-Preparation and commissioning of the hydraulic group. Turbine system. Alternator system. Excitation system. System for cooling and sealing the alternator. Group lubrication and injection system.
-Group startup process. Group loading, synchronisation, coupling and loading.
-Group stop process. Controlled shutdown of floodgates, valves, distributor, and other flow controllers. Decoupling of the network. Speed regulation, hydraulic, electrical or electromagnetic braking.
4. Control and telecontrol in hydroelectric power plants
-Expert or assistant systems for monitoring and controlling a hydroelectric power plant.
-Constitution and functions of the monitoring and control systems, and the main links of control of a hydroelectric power plant.
-Motor water system control, fluid turbine control system, pressure and temperature control, load control and voltage control. Speed regulation of hydraulic turbines.
-Monitoring and control systems: DCS, data acquisition systems, monitoring computer, alarm system. SCADA.
-Command logic systems and protections-permissive, alarms, shots-.
-Environmental control systems for dams, reservoirs and hydroelectric plants. Types of pollutant discharges and technologies available for reduction.
-Transitional and emergency application regulations at the power stations.
-Central, substations, and transformation centers regulation.
-Low Tension Electrotechnical Regulation.
-Security regulations. Environmental regulations. UNE standards of enforced compliance.
FORMATIVE UNIT 2
Naming: RESPONSE ACTIONS, FROM A HYDROELECTRIC POWER CENTER CONTROL CENTER, VERSUS FAILURES
Code: UF1770
Duration: 60 hours
Competition reference: This training unit corresponds to the professional realizations RP4 and RP2 as regards anomalous situations of operation.
Assessment Capabilities and Criteria
C1: Specify possible anomalous situations of operation in hydroelectric power plants, indicating those equipment and operating parameters that should be monitored as a matter of priority and appropriate actions each situation.
CE1.1 Specify the immediate checks and actions to be performed on the monitoring and control systems of the dam and reservoir system in case of large avenues.
CE1.2 Specify the immediate checks and actions to be performed on the control system of the dam and reservoir system, and control and lubrication of the turbines in case of a zero voltage.
CE1.3 Specify the immediate checks and actions to be performed on the hydrogen lubrication and sealing system of the alternator in case of zero voltage.
CE1.4 Indicate other functional systems or equipment that should receive priority emergency power in case of general alternating voltage failure.
CE1.5 Describe the behavior to follow in case of a turbine shot, partial load rejection, or group shot.
CE1.6 Describe the behavior to be followed in case of break in deposits, pipes or at any point of the parts under pressure from installations or equipment of the facilities of the hydroelectric power plants.
CE1.7 Describe the behavior to be followed in case of spill of polluting products or in case of fire.
CE1.8 Describe the behavior to follow in the different types of cases where a personal accident might occur.
C2: Act against unforeseen or anomalous situations: large avenues, gate breakage, pressure parts, group firing, pollutant discharge, fire or other emergency situations, according to established protocols and using a simulator.
CE2.1 promptly and accurately identify the entity and scope of the emergency in order to prevent risks.
CE2.2 Determine the type of emergency equipment that should be automatically activated.
CE2.3 Perform the manual boot equipment activation procedures.
CE2.4 Describe the procedures for alert activation.
CE2.5 Define the immediate actions to be taken in the various emergency situations, analyzing the required coordination tasks.
C3: Describe emergency plans, requirements derived from them, and actions to be carried out in the face of accidents and unforeseen events.
CE3.1 Explain the emergency plan of the operation center, the emergency plan of the hydroelectric plant and the emergency plan of dams, identifying the parts in which they are divided.
CE3.2 Explain the requirements arising from emergency plans regarding the required material resources.
CE3.3 Precise the actions to be taken by people in an accident or contingency, describing each of the measures of protection, assessment, aid and first aid.
Contents
1. Ordinary anomalies in hydroelectric power plants
-Mechanical protection of hydraulic turbines and their equipment (temperatures, pressures, levels, flow rates, speed).
-Electrical equipment protection (alternator, group transformer, auxiliary systems c.a. and c.c., and electrical park systems and components).
-Emergency equipment for hydroelectric power plants: Emergency lubrication, sealing of alternator closures, and achique pumps.
-Alarm systems. Failure detection and interpretation.
-Command logic systems and protections: permissive, alarms, and shots.
-Checks and procedures for performance against ordinary anomalies in hydroelectric power stations: zero voltage, turbine trip, partial load rejection, group firing.
-Take Action Protocols
2. Extraordinary anomalies in hydroelectric power plants
-Great avenues. Weather forecasts and watershed management in case of heavy rainfall.
-National stress zero and service replacement plans.
-Roture in tanks, pipes, and other parts of the parts under pressure.
3. Environmental incidents and accidents
-Environmental control systems for dams, reservoirs and hydroelectric power plants.
-Vertid of polluting products. Types. Technologies available for reduction.
-Application regulations in emergency cases. Emergency plans.
-Fires. Fire detection and extinguishing systems.
-Accidents: communications, accident assessment, request for assistance.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº 90 | |||||||
|---|---|---|---|---|---|---|---|---|
|
| 90 | 90 | 90 | 90 | 90 |
| 30 | |
| Formunity 2- UF1770. | 60 | 20 |
Sequence:
To access the formative unit 2 must have been passed the formative unit 1.
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 3
Naming: PLANT OPERATION AND FIRST-LEVEL MAINTENANCE OF HYDROELECTRIC POWER PLANTS
Code: MF1529_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1529_2 Operate on site and perform first-level maintenance of hydroelectric power stations
Duration: 100 hours
FORMATIVE UNIT 1
Naming: LOCAL OPERATION OF EQUIPMENT AND SYSTEMS IN A HYDROELECTRIC POWER PLANT
Code: UF1771
Duration: 40 hours
Competition reference: This training unit corresponds to professional performance RP1.
Assessment Capabilities and Criteria
C1: Identify the different systems involved in the operation of hydroelectric power plants, their technical characteristics, functions, relevant operating parameters and associated regulations or regulations, in relation to the operation, defining the aspects.
CE1.1 Describe the operation of a hydroelectric plant from the corresponding technical documentation, identifying its parts, equipment and components.
CE1.2 Identify the different elements related to dam systems, reservoir and water supply, locate their location from the documentation and determine the operating activities that are carried out on them.
CE1.3 Identify the equipment and instruments related to the turbines and their lubrication, control and protection systems, locate their location from the documentation and determine the operating activities that are perform on them.
CE1.4 Identify the equipment and instruments related to the alternator, its excitation, cooling system and other auxiliary equipment, locate its location from the documentation and determine the operations perform on them.
CE1.5 Identify equipment and instruments related to the electrical systems of AT-substation-, BT, continuous current and secure tension, locate its location from the documentation and determine the operations that are performed on them.
CE1.6 Identify equipment and instruments related to control and their auxiliary systems, locate their location from the documentation, and determine the operations performed on them.
CE1.7 Identify water treatment related equipment and systems such as water intake grids, decantation systems, filters, scrubbers and others, locate their location from the documentation and determine the operations that are performed on them.
CE1.8 Explain the consequences, for the operability of a given installation, of the breakdowns in its critical points.
CE1.9 In a practical scenario of an installation of a hydroelectric power plant containing at least gates, ataguias, servomotors, turbine-alternator group, pumps, drains, electrical systems and control systems and characterized by installation plans and commissioning and maintenance manuals, describe the usual operations on each of the components of the installation.
C2: Apply local operating techniques for systems, equipment and instruments of hydroelectric power plants during normal operation and in the start and stop processes.
CE2.1 Locate the system, equipment, or instrument to operate on from the interpretation of the information provided.
CE2.2 Define the security requirements to operate on the different equipment according to established procedures by assessing the existing risks.
CE2.3 Perform acting operations on grids, gates, pumps, and other systems, equipment, and instruments of hydroelectric power plants that are eventually involved locally.
CE2.4 Check and control the consequences of action on the different systems, equipment and instruments of hydroelectric power plants that are eventually involved locally.
CE2.5 In a practical scenario of an installation of a hydroelectric plant containing at least floodgates, ataguias, servomotors, pumps, drains, electrical systems and control systems and other auxiliary systems which is characterised by installation plans and commissioning and maintenance manuals:
-Interpret the documentation provided and locate the system, equipment, or instrument to act on.
-Rate risks and define security requirements.
-Operate on equipment.
-Describe and analyze the consequences of each performance.
-Compose report.
Contents
1. Physical layout of hydroelectric power plant systems
-Core components of hydroelectric power plants:
-Water step opening, closing, and regulating devices.
-Alivents and drains.
-Hydraulic turbines.
-Alternators.
-Transformers.
-Auxiliary services (c.a. and c.c.).
-AT Parks.
-Locally controllable dam elements: relief, cargo chambers, channels, forced pipes, balancing fireplaces, bottom and half-bottom drains, inspection galleries.
-Interpretation of layout plans for hydroelectric power plants.
2. Local operation of hydroelectric power plants
-Operation Manuals.
-Maniworks of operation in the dam and reservoir system.
-Maniworks of operation in the auxiliary systems: lubrication and grease systems, achique pumps, etc.
-Maniworks of operation on electrical systems.
-Maniworks of operation in the debugging and environmental systems.
-Maniworks of urgency and security.
-Procedures for electrically isolating the different components.
FORMATIVE UNIT 2
Denomination: ORGANIZATION OF FIRST-LEVEL MAINTENANCE AND BASIC MAINTENANCE OPERATIONS IN HYDROELECTRIC POWER STATIONS
Code: UF1772
Duration: 60 hours
Competition reference: This training unit corresponds to the professional realizations RP2, RP3, RP4, and RP5.
Assessment Capabilities and Criteria
C1: Define key aspects of first-level maintenance of hydroelectric power plants
CE1.1 Describe the necessary maintenance tasks on the equipment and systems of a hydroelectric power plant:
-Dam, reservoir and water supply systems.
-Turbines and their lubrication, control and protection systems.
-Alternator, excitation, cooling system and other auxiliary equipment.
-AT electrical systems (including substation), BT, continuous current and secure voltage.
-Control and its auxiliary systems.
-Water treatment-related systems, water intake grids, decanting systems, filters, scrubbers, etc.
CE1.2 Explain the consequences from the point of view of maintenance, of the faults in the critical points of a given installation.
CE1.3 In a practical scenario of an installation of a hydroelectric power plant containing at least gates, ataguias, servomotors, turbine-alternator group, pumps, drains, electrical systems and control systems and which is characterised by installation plans and commissioning and maintenance manuals:
-Define the characteristics that the workbench must have before performing the maintenance activity.
-Explain the types of maintenance operations to perform.
-Justify the periodicity of the maintenance operations to be performed.
-Determine and sequence the times for each intervention.
-Organize and define the technical and human resources involved in operations.
C2: Apply first-level preventive maintenance techniques to installations of a hydroelectric power plant.
CE2.1 Describe the tasks to be performed on the oil and oil change operations, the clearing and cleaning of grids.
CE2.2 Describe the procedures for checking tightness, absence of corrosions, state of thermal and electrical insulation, noise level and vibration of mechanical equipment.
CE2.3 Detailed regulatory requirements related to environmental control.
CE2.4 Specify the performance protocols in the rotation of duplicate teams.
CE2.5 Describe maintenance operations on the equipment and tools used in maintenance.
CE2.6 Compose reports on preventive maintenance jobs.
CE2.7 In a practical case of an installation of a hydroelectric power plant containing at least grids, gates, ataguias, servo motors, pumps, drains, electrical systems and control systems and characterized by the installation and commissioning and maintenance manuals:
-Perform the cleaning and maintenance operations of grids, gates, and ataguias.
-Make oil greases and changes.
-Check equipment tightness.
-Check the thermal and electrical isolation status.
-Check the noise level and vibration of mechanical equipment.
-Apply regulatory environmental control measures.
-Perform duplicate equipment rotation.
-Maintain equipment and tools used in maintenance.
-Meet performance report.
C3: Apply corrective maintenance techniques to installations of a hydroelectric power plant.
CE3.1 Describe the procedure to replace different defective items in the equipment, checking the operation of the system and verifying that the system conforms to the parameters set in each case.
CE3.2 Describe maintenance operations on the equipment and tools used in corrective maintenance to keep them in operation.
CE3.3 Draft reports on corrective maintenance jobs.
CE3.4 In a practical case of an installation of a hydroelectric power plant containing at least grids, gates, ataguias, servo motors, pumps, drains, electrical systems and control systems and characterized by the installation and commissioning and maintenance manuals:
-Repair and/or replace broken elements.
-Check the operation of the repaired computer or system by measuring its characteristic parameters.
-Maintain equipment and tools used in corrective maintenance.
-Meet performance report.
C4: Detailed the actions to be carried out during the maintenance of a hydroelectric power plant, aimed at ensuring the integrity of the people, the media and the environment.
CE4.1 Identify professional, thermal, mechanical, electrical, or other risks related to the work to be performed.
CE4.2 Appropriate select the protection means required for the job to perform and define the characteristics that the workbench must have before performing the operation.
CE4.3 Describe the procedure for action to be followed in the event of accidents caused by phenomena of electrical, thermal, mechanical or fire-related origin, spills or leaks of flammable, toxic or corrosive products.
CE4.4 Select and use the hazard and action sheets in emergencies corresponding to each incident or accident in a hydroelectric power station.
Contents
1. First level maintenance of hydroelectric power plant installations
-Plant maintenance programs for hydroelectric power plants.
-Manuals. Establishment and management of maintenance plans in hydroelectric plants.
-Application standards in the maintenance of hydroelectric power plant installations.
-Quality in the maintenance of hydroelectric power plant installations.
2. First-level preventive maintenance of hydroelectric power plant installations
-Preventive maintenance program.
-Procedures and operations for taking action.
-Checking and adjusting the parameters to the watchword values.
-Performance evaluation.
-Mechanical operations: replacement of lubricants, replacement of simple wear elements, cleanings.
-Electrical operations: lighting review, fuse replacement, basic electrical checks.
-Buffer, vibration.
-Cleaning procedures. Checking and replenishing oils and lubricants.
3. First-level corrective maintenance of hydroelectric power plant installations
-Diagnosis of breakdowns. Critical breakdowns.
-Disassembly and repair or replacement of electrical and mechanical elements.
-Maintenance of gates, ataguias, valves and actuators. Bombs. Removing and mounting packing.
4. Safety in the maintenance of hydroelectric power plant installations
-Charges.
-Visual checks for electrical isolation and grounding.
-Risks derived from pressure and temperature equipment.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº
40 | 40 | 40 | 40 | 40 | 40 | 40 | 40 | 40 | 30 |
|---|---|---|
| Formunity 2- UF1772. | 60 | 40 |
Sequence:
To access the formative unit 2 must have been passed the formative unit 1.
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 4
Naming: COORDINATION AND SUPPORT FOR HUMAN TEAMS INVOLVED IN THE OPERATION OF POWER PLANTS
Code: MF1200_3
Professional qualification level: 3
Associated with the Competition Unit:
UC1200_3 Coordinate and prepare the human team involved in the operation area of power stations
Duration: 100 hours
FORMATIVE UNIT 1
Denomination: PROFESSIONAL FUNCTIONS AND TRAINING OF AN ELECTRICAL POWER PLANT OPERATING EQUIPMENT
Code: UF0561
Duration: 50 hours
Competition reference: This training unit corresponds to RP1.
Assessment Capabilities and Criteria
C1: Analyze the professional functions of the people involved in the operation and maintenance of the first level in power stations, identifying the performance sequences and the expected behavior of the different team members.
CE1.1 Define the roles and responsibilities of team members, analyzing the professional relationships between them.
CE1.2 Transmit and provide clear information about the objectives and actions to be performed by each of the team members in charge in the process of operation and maintenance of the first level of the plant.
CE1.3 Canalize and encourage the participation of team members to improve interventions and update operation manuals, security manuals or any other technical documents related to their field of action.
C2: Develop actions for the continuous internal training of the human group, which, under its responsibility, operates in power stations.
CE2.1 Concrete the training needs of the newly incorporated staff, or in training period according to the functions to be performed.
CE2.2 Establish a continuous training program adapted to the job.
CE2.3 Collaborate in the direct training of new incorporation staff, or in training period in aspects related to procedures and operating instructions, test protocols, testing of devices protection, checklists and other relevant information.
CE2.4 Develop action plans to evaluate the outcome of the training actions and correct the shortcomings observed.
CE2.5 In a practical case of an installation of a power plant, characterized by installation plans and operation and maintenance manuals:
-Set the appropriate training program to a particular training need.
-Collect procedures and operating instructions, test protocols, proof of protection devices, checklists, and other relevant information for support in the training action.
-Perform training actions based on content related to the operation of power plants.
-Evaluate the formative action.
Contents
1. Electrical system and generating facilities and implications for human equipment
-Central Typology.
-Thermoelectric power stations:
-Liquid fuel.
-From Coal.
-Engines.
-Gas Turbines.
-Cycles combined.
-thermosolar plants.
-Other Central:
-Hydropower.
-Nuclear.
-Renewables.
-Cogeners.
-Production process.
-Power grid and power supply.
2. External assistance contracts and services in power stations
-Regular tasks of external assistance and services.
-Hiring process.
-Framework of the work of personnel outside the plant.
-Fuel supply.
-Monitoring, checking, and certification systems. Tests and systems for the compliance of tasks.
3. Professional functions in power plants
-Organization chart.
-Areas and departments.
-Operation work team.
-Training of operatives.
4. Training of power plant personnel
-Diagnosis of the training status of power plant operators.
-Request for formative actions.
-Realization of daily training actions.
FORMATIVE UNIT 2
Naming: COMMUNICATIONS AND TRANSMITTING INFORMATION IN THE OPERATION TEAM OF A CENTRAL ICA
Code: UF0562
Duration: 50 hours
Competition reference: This training unit corresponds to RP2 and RP3.
Assessment Capabilities and Criteria
C1: Systematize and formalize information about incidents and relevant information of operation in power stations and coordinate their transmission to members of the relay teams.
CE1.1 Identify, define and collect relevant information about the incidents in the monitoring and operation processes of power plants.
CE1.2 Describe the protocols for the relay of equipment and detail the different documents used for the transmission of information.
CE1.3 Meet and manage administrative documents, incorporating clear and detailed data for any contingency that has arisen.
C2: Develop and develop coordination plans for operation, maintenance, safety, environmental and quality activities.
CE2.1 Analyze the aspects of leadership, motivation, and other values to consider for efficient teamwork.
CE2.2 Analyze aspects of stress, human error, and other factors that may interfere with efficient teamwork.
CE2.3 Identify, define and collect relevant information about the coordination needs between the teams operating the plant and those who perform maintenance, chemical control, environmental monitoring or quality management.
CE2.4 Identify the telecommunication equipment needed for the permanent coordination with the different team members.
CE2.5 Develop a coordination plan between the tasks of different teams, designing the necessary schedules and defining the required operating maneuvers at any time.
CE2.6 Detailed maintenance work compliance models including final test requirements, circuit alignment, or other tasks at the plant of the plant, managing the same.
CE2.7 Based on case studies where different types of coordination problems occur, propose the necessary improvements, and produce useful reports for the quality management area.
Contents
1. Management of human equipment in the usual operations in power stations
-Operations and personnel involved.
-Teamwork.
-Work in shifts.
-Leadership, motivation.
-Human stress and error management.
-Communication techniques.
-Coordination of operation service with other services:
-Maintenance.
-Quality.
-Chemical service.
-Coordination Plan.
-Cronograms.
2. Management of human equipment in scheduled power plant reviews
-Central stop and associated operations.
-Corrective maintenance and breakdown repair operations.
-Coordination of the intervention in the boiler. Test maneuvers.
-Coordination of the intervention in the turbine generator.
-Test Maniworks.
-Coordination of intervention in auxiliary air, steam and fuel systems.
-Coordination of the intervention in substations.
-Schedule of the job.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº Maximum hours susceptible to distance | |
|---|---|---|
|
Formative Unit 1-UF0561. | 50 | 40 |
| Form_table 2-UF0562. | 50 | 30 |
Sequence:
The training units for this module can be programmed independently.
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
TRAINING MODULE 5
Naming: SECURITY IN HIGH-VOLTAGE INSTALLATIONS
Code: MF1530_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1530_2: Prevent risks in high-voltage power installations
Duration: 90 hours
Assessment Capabilities and Criteria
C1: Identify the actions directed to safety and health at work in the basic normative framework that regulates them in the sector of high voltage electrical installations assessing the importance of management preventive.
CE1.1 Identify regulations on the prevention of occupational risks and their application in the electrical sector.
CE1.2 Explain the meaning of the concepts of safety and health at work, occupational risk, damages arising from work, prevention, accident of work and occupational disease, explaining the characteristics and elements that define and differentiate each of them.
CE1.3 Citar the general characteristics that define safety techniques and health techniques by specifying the differences between them.
CE1.4 Define what risk prevention management is by justifying preventive measures and protecting workers ' health and safety.
CE1.5 Identify the requirements of the Safety and Health Plan for a work related to high-voltage electrical installations.
CE1.6 Identify public and private agencies and agents related to Safety and Health at Work.
CE1.7 Summarize the functions of the Prevention Services and mention the obligations of the different legally defined decision-makers.
CE1.8 Identify the rights and obligations of workers in security and health, specifying, among others, those related to protection, information, preventive training, consultation and participation.
CE1.9 Relate the channels or means of disclosure of information on job security and risk prevention in the performance of operations in high-voltage electrical installations.
CE1.10 In a practical scenario of activities linked to the promotion of safe behaviors in the development of work in the sector:
-Develop a programme of training and information activities for workers, integrating actions of motivation, changing attitudes and awareness of workers, aimed at promoting safe behaviour in the workplace. development of the tasks.
-Develop disclosure posters and internal rules that contain the essential elements of general and sector prevention, such as information, signage, images and symbology, among others, to promote safe behaviors.
-Design a procedure that contains all the necessary elements for verifying the effectiveness of all scheduled actions.
-Design an information campaign on all the actions envisaged in the field of occupational risk prevention.
C2: Identify and assess occupational and environmental risks in operations related to the execution of works in the presence of electrical voltage.
CE2.1 Identify and assess the specific occupational risks related to jobs called proximity to electrical voltage installations.
CE2.2 Identify and assess specific professional risks related to static electricity and its influence on explosion risks.
CE2.3 Identify and evaluate specific professional risks related to performing work at heights.
CE2.4 Evaluate specific professional risks related to the management of GIS technology components.
CE2.5 Describe, analyze, and evaluate professional risks related to running jobs in confined spaces.
CE2.6 Describe and analyze the most frequent professional risks present in the management of portable tools and equipment used in the presence of electrical voltage.
CE2.7 Identify and evaluate the risks related to the maneuvers to connect or leave without electrical voltage a facility.
CE2.8 Identify and interpret the signalling of drivers, pipes, appliances and equipment of the high voltage installations, specifying the regulatory requirements in this respect.
C3: Define the prevention and safety measures regarding operations and maneuvers to leave without electrical voltage a facility, and for subsequent replenishment of the intended interventions.
CE3.1 Identify the power supplies that supply the installation on which to act.
CE3.2 Describe procedures to suspend the supply of voltage from different sources.
CE3.3 Identify and explain the functioning of the locking mechanisms of the different electrical maneuvering devices.
CE3.4 Describe procedures for verifying the absence of tension in equipment and facilities.
CE3.5 Describe the equipment used to verify the absence of tension in the equipment and facilities.
CE3.6 Analyze methods and procedures for grounding and shorting the different equipment and facilities on which to act.
CE3.7 Describe the requirements of the work zones against the next elements in tension.
CE3.8 Describe the procedures for replenishing the electrical voltage supply from different sources and in different assumptions.
C4: Apply security techniques and preventive measures according to the established protocol, in the execution of works in the presence of electrical voltage.
CE4.1 Describe the preventive measures to be applied to avoid and control the risks of the work in the presence of electrical voltage.
CE4.2 Describe the procedures and methods of action that are recommended to be followed by qualified personnel to perform these jobs.
CE4.3 Describe the characteristics of the screens, covers, pods, tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms, gloves, goggles, helmets and other accessories, tools and equipment individual protection employees in jobs in the presence of electrical voltage.
CE4.4 Describe the requirements for signalling, lighting and preparation of work areas in the work in the presence of electrical voltage, determining the specific occupational risks and their measures corrective.
CE4.5 Explain the influence of adverse weather conditions on professional risks related to the work in the presence of electrical voltage.
CE4.6 Explain the risks and environmental prevention measures related to discharges of gas into the atmosphere (hexafluoride), with magnetic induction and with the protection of avifauna among others.
CE4.7 In several case studies with interventions related to work in the presence of electrical voltage:
-Planting the organization of the signaling systems in the work.
-Describe and assess the emergency plan, determining emergency situations, phases, communication systems, and personnel and performance entities.
-Develop the documentation and reports that require a certain contingency.
C5: Apply performance techniques in simulated emergency situations and require first aid, in accordance with defined emergency plans, electrical safety regulations, and basic health care protocols.
CE5.1 Describe an emergency plan, analyzing the parts in which it is divided and the functions of the first intervention teams.
CE5.2 Describe emergency devices, equipment, and protective measures of enclosures with high-voltage electrical installations and explain the characteristics of the operation thereof.
CE5.3 To drill down on the most frequent accidents that occur in the work related to the high voltage installations and to relate them to the emergency devices.
CE5.4 Define the actions to be followed by people in the face of accidents or contingencies related to asphyxiation, trapping in ditches, fire, electrocution, describing protective measures, assessment, aid and first aid in each case.
CE5.5 In a scenario of simulated fire extinguishing in a local with electrical equipment:
-Select the appropriate individual protection equipment for the fire type.
-Select and use portable and fixed media with solid, liquid and gaseous agents.
-Make extinction using the method and technique of the equipment used.
CE5.6 In a practical scenario of mock evacuation, in which the plane of a building and the plan of evacuation from emergencies are facilitated:
-Locate special detection, alarm, and light installations.
-Senalize the means of protection and escape paths.
-Propose the procedures for action in relation to the different risk zones in a given emergency situation.
CE5.7 In a scenario of simulated accident simulation exercises:
-Indicate precautions and measures to be taken in case of electrocution, fibrillation, bleeding, burns, fractures, luxations and muscle injuries, positioning of patients and immobilization.
-Apply resuscitation measures, cohibide of bleeds, immobilizations, and bandages.
CE5.8 Compliment with descriptive reports of the emergency situation and damage assessment.
Contents
1. General occupational risks and prevention
-Work and Health:
-Definition and components of health.
-Professional risks.
-Risk factors.
-General risks and their prevention:
-Risks Linked to Security Conditions
-Risks linked to the working environment
-The workload
-Fatigue
-Job dissatisfaction.
-Risk assessment techniques.
-Damage from work:
-Work Accidents
-Professional diseases
-Incidents
-Other pathologies derived from work.
-Elementary risk control systems.
-Health control of workers.
2. Safety and health techniques at work.
-Security Techniques: prevention and protection measures.
-Health Techniques:
-Industrial hygiene.
-Ergonomics.
-Work medicine.
-Psychosocial factors.
3. Safety and health regulations and regulations at work.
-Basic regulatory framework for the prevention of occupational risks.
-Rights and obligations of workers in the field of safety and health at work.
-Employer's obligations in terms of safety and health at work.
-Preventive planning in the enterprise. Safety and Health Plan of a Work.
-Prevention services: typology.
-Public agencies related to Safety and Health at Work.
-Representation of workers.
-Organization of preventive work: Basic routines.
-Documentation: collection, processing, and file.
4. Specific occupational risks and prevention measures in the presence of electrical voltage
-Royal decree on the prevention of electrical risks.
-Identification and risk assessment in high voltage.
-Risks of mechanical origin.
-Electric-type hazards.
-Fires, deflagrations and detonations. Triangle of fire. Classes of fire.
-Fire and explosion hazards. Prevention, protection and extinction.
-Secure Maniworks to leave an installation without electrical voltage.
-Secure Maniworks in Voltage Reorder.
-High voltage jobs. Work in proximity. Procedures and methods of work.
-Jobs in height.
-Jobs in confined spaces.
-Maniworks, measurements, tests and verifications. Replacement of fuses.
-Safety plans.
-Environmental impact. Discharges into the environment, pollution, greenhouse effect.
-Electrical, safety and environmental regulations. The five golden rules.
-Managing prevention:
-Types of jobs.
-Authorization of jobs.
-Downloading procedures.
-Human teams of work and functions: technical officer, chief installation, discharge agent, security coordinator, work supervisor, head of work, preventive resource.
5. Safety equipment in work in the presence of electrical voltage
-Individual and collective protective equipment.
-Auxiliary security teams. Fire detection and extinguishing systems.
-Signage systems.
-Inspection and maintenance of equipment.
6. Emergencies in jobs in the presence of electrical voltage
-Emergency Plan.
-Accidents. Protection of the crashed. Assessment of the accident. Request for help.
-First aid: basic criteria for action. Coordination of the intervention.
-Evacuation plans.
Methodological guidelines
Distance training:
| Formative Module | Total duration in hours of the training module | Number of hours 90 | 90 | 90 | 90 | 90 | 90 Centro_table_body "> 50 |
|---|
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
NON-WORKING PROFESSIONAL PRACTICE MODULE FOR OPERATION MANAGEMENT IN HYDROELECTRIC POWER PLANTS
Code: MP0376
Duration: 80 hours
Assessment Capabilities and Criteria
C1 Define the procedures for operating the equipment in the ordinary operation of a hydroelectric power plant, considering the evolution of the main parameters.
CE1.1 Specify procedures to check the status of equipment or systems: what is the position of drains and gates, levels, operation of lubrication and cooling systems, state of the instrumentation and the power supply.
CE1.2 Determine the allowable values of temperatures, levels, flow rates, consumption, and other relevant parameters.
C2: Diagnose operation and dysfunctions in hydroelectric power plants by analyzing the operating parameters.
CE2.1 In a scenario or scenario using a simulator:
-Collect the data using the appropriate checklists.
-Transfer the data obtained according to the established procedure to the management system.
-Perform the validation of the quality of the data obtained by analyzing the trends later.
-Perform a report according to the procedure set.
-Select which parameters are out of range indicating possible causes and likely effects of the current situation.
C3: Define the protocols and procedures used for periodic testing and temporary disabling of equipment in hydroelectric power plants.
CE3.1 In an assumption or case scenario, a hydroelectric power plant installation is properly characterized by the installation plans and manuals.
-Drill down the tests to be performed on each of the considered equipment.
-Relate the so-called five gold rules in performing electrical voltage-related jobs.
-Describe procedures for electrically isolating and grounding equipment.
-Set coordination protocols with other personnel involved.
-Define the signaling requirements, interlocking of moving parts, and other factors that facilitate the operation of the equipment safely.
-Set the procedures for the commissioning of the equipment.
C4: Perform manoeuvres and correct dysfunctions in hydroelectric power stations.
CE4.1 In a scenario or scenario using a simulator:
-Identify, by means of simulation, anomalies in the operation of valves, gates, ataguias, regulators, electrical switches, pumps and other operating and control elements of a hydroelectric power plant.
-Perform in the simulator turbine shooting maneuvers, synchronization maneuvers, uncoupling and load variations, detecting the disfunctions and imbalances that occur.
-Use the documentation related to the detected dysfunction with dexterity.
-Clear and concise describe the detected problem and other information to be transmitted to the control center.
C5: Establish procedures for the organization and supervision of the maintenance of hydroelectric power plants.
CE5.1 In a case or case scenario, of a hydroelectric plant installation, duly characterized by the installation plans and manuals.
-Perform a general description of the facilities, indicate their location, and interpret the technical and administrative documentation received.
-Develop a relationship of the equipment and systems that can be maintained in the plant itself.
-Determine the equipment and tools required for routine and general maintenance.
-Set the health check criteria for the different systems and equipment in the facilities of the plant.
-Rate that the maintenance operations of hydroelectric power plants and control centers are carried out in accordance with established procedures and safety and environmental standards.
-Develop a maintenance organization guidelines manual.
-Systematize the collection of information and communication according to the maintenance plan and procedures usually established in the companies.
C6: Apply local operating techniques for systems, equipment and instruments of hydroelectric power plants during normal operation and in the start and stop processes.
CE6.1 In a practical scenario of an installation of a hydroelectric power plant containing at least floodgates, ataguias, servomotors, pumps, drains, electrical systems and control systems and other auxiliary systems which is characterised by installation plans and commissioning and maintenance manuals:
-Interpret the documentation provided and locate the system, equipment, or instrument to act on.
-Rate risks and define security requirements.
-Operate on equipment.
-Describe and analyze the consequences of each performance.
-Compose report.
C7: Apply first-level preventive maintenance techniques to installations of a hydroelectric power plant.
CE7.1 In a practical case of an installation of a hydroelectric power plant containing at least grids, gates, ataguias, servo motors, pumps, drains, electrical systems and control systems and characterized by the installation and commissioning and maintenance manuals:
-Perform the cleaning and maintenance operations of grids, gates, and ataguias.
-Make oil greases and changes.
-Check equipment tightness.
-Check the thermal and electrical isolation status.
-Check the noise level and vibration of mechanical equipment.
-Apply regulatory environmental control measures.
-Perform duplicate equipment rotation.
-Maintain equipment and tools used in maintenance.
-Meet performance report.
C8: Apply corrective maintenance techniques to installations of a hydroelectric power plant.
CE8.1 In a practical case of a hydroelectric plant installation containing at least grids, gates, ataguias, servomotors, pumps, drains, electrical systems and control systems and characterized by the installation and commissioning and maintenance manuals:
-Repair and/or replace broken elements.
-Check the operation of the repaired computer or system by measuring its characteristic parameters.
-Maintain equipment and tools used in corrective maintenance.
-Meet performance report.
Contents
1. Local monitoring procedures for hydraulic power plants
-Alignment of equipment.
-Checklists and rounds.
-Failure communication and monitoring reports.
-Job settings and parameter alarm.
2. Periodic testing monitoring procedures
-Regular tests of redundant equipment.
-Regular tests of security items.
-Regular testing of emergency equipment.
3. Discharge procedures
-Electrical and mechanical insulation of equipment and protection of equipment or persons.
-Discharge procedure:
-Need of the download.
-Request and communications.
-Locks.
-End of jobs, equipment testing, and discard removal.
4. Organisation of the maintenance of hydroelectric power plants
-Maintenance. Function, objectives, and types.
-Planning and scheduling maintenance. Maintenance plans.
-Calculation of needs. Load planning. Determination of times.
-Documentation for scheduling and scheduling. The work order.
-Optimization of maintenance. Quality in service delivery.
5. Physical layout of hydroelectric power plant systems
-Core components of hydroelectric power plants:
-Water step opening, closing, and regulating devices.
-Alivents and drains.
-Hydraulic turbines.
-Alternators.
-Transformers.
-Auxiliary services (c.a. and c.c.)
-AT Parks.
-Locally controllable dam elements: relief, cargo chambers, channels, forced pipes, balancing fireplaces, bottom and half-bottom drains, inspection galleries.
-Interpretation of layout plans for hydroelectric power plants.
6. Local operation of hydroelectric power plants
-Operation Manuals.
-Maniworks of operation in the dam and reservoir system.
-Maniworks of operation in the auxiliary systems: lubrication and grease systems, achique pumps, etc.
-Maniworks of operation on electrical systems.
-Maniworks of operation in the debugging and environmental systems.
-Maniworks of urgency and security.
-Procedures for electrically isolating the different components.
7. First level maintenance of hydroelectric power plant installations
-Maintenance plans for maintenance plans in hydroelectric power plants.
-Application standards in the maintenance of hydroelectric power plant installations.
-Quality in the maintenance of hydroelectric power plant installations.
8. Integration and communication in the workplace
-Responsible behavior in the job center.
-Respect to the procedures and rules of the work center.
-Interpreting and diligently performing the instructions received.
-Recognition of the organization's production process.
-Using the communication channels set in the job center.
-Adequation to the company's work rate.
-Tracking the regulations for risk prevention, occupational health and environmental protection.
IV. PRESCRIPTIONS OF TRAINERS
|
Modules | Required Accreditation | Professional experience required in the scope of the competency | ||
|---|---|---|---|---|
|
With accreditation | No accreditation | |||
|
MF1527_3: Plant control of operation and central maintenance Hydroelectric. | □ Licensed, engineer, architect or degree of corresponding degree or other equivalent titles □ Diplomate, technical engineer, technical architect or the corresponding degree title or other equivalent titles. | 2 years | - | |
|
MF1528_3: Control of hydroelectric power plants. | □ Bachelor, engineer, architect or corresponding degree of degree or other equivalent qualifications □ Diplomacy, technical engineer, technical architect or corresponding degree of degree or other titles equivalents. | 2 years | - | |
|
MF1529_2: First-level operation and maintenance Hydroelectric power plants. | □ Licensed, engineer, architect or corresponding degree title or other equivalent titles. □ Diplomate, technical engineer or technical architect or corresponding degree of degree or other equivalent titles. □ Higher Technician of the Professional Family of Energy and Water. □ Level 3 Professional Power Area Certificate of Professional Power of the Professional Energy Family and water. | 2 years | 5 | |
|
MF1200_3: Coordination and support for human teams involved in the operation of power plants. | □ Bachelor, engineer, architect or corresponding degree of degree or other equivalent qualifications □ Diplomacy, technical engineer, technical architect or corresponding degree of degree or other titles equivalents. | 2 years | ||
| MF1530_2: High voltage installations security. | Higher Technical in Risk Prevention Professionals. | 2 years | - | |
V. MINIMUM SPACES, FACILITIES AND EQUIPMENT REQUIREMENTS
| Forming Space | Surface m2 15 pupils | Surface m2 25 pupils |
|---|---|---|
|
Classroom. | 45 | |
| 150 | 150 |
| M1 | M2 | M3 | M4 | M5 | |||||
|---|---|---|---|---|---|---|---|---|---|
|
M5 |
X |
X | X | X | X | X | |||
| X | X | X | X | X | X |
| Equipment | |
|---|---|
|
Classroom. | audio-visual equipment -network installed PCs, projection canon and internet -Specialty specific software -Pizars -Rotafolios -Classroom Material -Table and chair for trainer -Messes and chairs for students |
| Workshop for practices. | -Vibration Measurement Equipment -Computers with Hydroelectric Facilities Simulation Software -Switches High voltage -Electrical Systems -Compressed air compressor with depot. -Small pumps -Doors -Servomotors -Valves -Valves: hold, butterfly, gate, ball, motorized by air, by stream. -Diffusers. -Filters air. -Poligrass -Equipment multigas detector. -Stand-alone breathing equipment. -Multi-function intensities checking equipment. -Tools required for the management of hydroelectric power plants. |
It should not be interpreted that the various identified learning spaces should necessarily be differentiated by closure.
The facilities and equipment must comply with the relevant industrial and sanitary sanitary regulations and respond to the universal accessibility and safety measures of the participants.
The number of units to be provided with the tools, machines and tools specified in the training spaces will be sufficient for a minimum of 15 students and must be increased, in their case, to attend to the top number.
In the event that the training is addressed to persons with disabilities, the adaptations and reasonable adjustments will be made to ensure their participation in equal conditions.
ANNEX III
I. IDENTIFICATION OF THE CERTIFICATE OF PROFESSIONALISM
Denomination: Managing the assembly and maintenance of electrical substations.
Code: ENAL0210
Professional family: Energy and Water.
Professional area: Electrical energy
Professional qualification level: 3
Professional reference qualification:
ENA474_3 Managing the assembly and maintenance of electrical substations (RD 716/2010, 28 May.)
Relationship of competency units that configure the certificate of professionalism:
UC1531_3: Manage and monitor the assembly of electrical substations.
UC1532_3: Manage and monitor operation and maintenance of electrical substations.
UC1533_2: Operate locally and perform first-level maintenance on power substations.
UC1530_2: Prevent risks in high-voltage electrical installations.
General competition:
Manage and monitor the assembly and maintenance of the device and equipment in electrical substations, and perform the operation and maintenance of the first level, ensuring its optimal operation, optimizing the resources available, and in compliance with the requirements laid down for quality and safety for persons, the environment and facilities.
Professional Environment:
Professional scope:
Develops its professional activity, self-employed or foreign, in the areas or departments of production or maintenance of companies of any size, public and private, related to the generation, transport and the distribution of electrical energy, or of high voltage installations, as well as in industrial companies carrying out assembly and maintenance work for electrical substations, depending on the operation of a superior and being able to have lower level staff.
Productive Sectors:
It is located in the energy sector, subsector of production, transportation and distribution of electrical energy, as well as in the productive activities corresponding to the assembly and maintenance of electrical substations.
Occupations or related jobs:
Power substation assembly manager.
Power substation maintenance manager.
Operator-maintainer of electrical substations.
Duration of the associated training: 620 hours.
Relationship of training modules and training units:
MF1531_3: Managing and monitoring the assembly of electrical substations. (150 hours)
□ UF1773: Planning for provisioning and mounting electrical substations (80 hours)
□ UF1774: Assembly, monitoring and commissioning of electrical substations (70 hours)
MF1532_3: Managing and monitoring the operation and maintenance of electrical substations. (180 hours)
□ UF1775: Managing and monitoring the operation of electrical substations (90 hours)
□ UF1776: Management and monitoring of maintenance of electrical substations (90 hours)
MF1533_2: Local operation and first-level maintenance on power substations. (120 hours)
□ UF1777: Local operation and first-level preventive maintenance on electrical substations (90 hours)
□ UF1778: First-level corrective maintenance of electrical substations (30 hours)
MF1530_2: (Cross-sectional) Security in high voltage installations (90 hours)
MP0377: Non-work professional practice module for Managing the assembly and maintenance of electrical substations (80 hours)
Linking with professional trainings:
The training provided in the training module MF1530_2 of this certificate of professionalism, guarantees the level of knowledge necessary to obtain the qualification for the performance of the prevention functions (a) basic level of labour risks, according to Annex IV of the Prevention Services Regulation, approved by Royal Decree 39/1997 of 17 January.
II. PROFESSIONAL PROFILE OF THE CERTIFICATE OF PROFESSIONALISM
Competition Unit 1
Naming: MANAGING AND MONITORING THE ASSEMBLY OF ELECTRICAL SUBSTATIONS
Level: 3
Code: UC1531_3
Professional realizations and realization criteria
RP1: Develop the plans of assembly and supply of electrical substations from the interpretation of the project, to sequence and organize the execution of the work, according to criteria of efficiency, quality and safety for people, the environment and facilities.
CR1.1 The project or plan memory is parsed and interpreted in the scheduling process.
CR1.2 The topographical and site features of the projected installation are interpreted from the drawings.
CR1.3 The functional characteristics of the auxiliary components and equipment of the electrical substation 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 project and plan documentation of the work.
CR1.5 The sequence and general organization of the assembly are set up, performing a work plan that optimizes the process in terms of security, method, and time.
CR1.6 The required schedules for each of the mounting phases are performed in such a way as to ensure the planning and chaining of the different parts of the installation.
CR1.7 The provisioning plan is done by coordinating the assembly plan with the provisioning and storage capabilities and ensuring 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 power substations projects are used to sequence and organize the execution of the work.
CR1.10 The plans for the assembly and supply of the electrical substation are elaborated according to criteria of efficiency, quality and according to the plan of prevention of occupational risks and the regulations of protection environmental.
RP2: Organize and monitor the repose and placement phase of electrical substation structures by checking that it is performed according to technical specifications, according to the schedule established and taking care of criteria for efficiency, quality and safety for people, the environment and facilities.
CR2.1 Installation mount planning is interpreted and used to organize the job on each of the parts of the installation.
CR2.2 The work of the specialized personnel involved in the work is coordinated by ensuring the fulfillment of the programmed objectives.
CR2.3 The information necessary to mount the electrical substation is transmitted and communicated to the workers in a clear manner, ensuring that the instructions given are sufficient and precise, avoiding errors in the interpretation and allowing the operatives to prepare the materials.
CR2.4 The repose of the work is organized and developed contrasting the project data on the ground and monitoring the general marking of the different components of the installation and, if necessary, the modifications required.
CR2.5 The movement of necessary structures, equipment, and other materials is organized and monitored according to project specifications.
CR2.6 The placement of structures is organized and monitored according to project specifications.
CR2.7 The organization and supervision of the repose and placement of structures of the electrical substation is carried out according to criteria of efficiency, quality and according to the plan of prevention of occupational risks and the environmental protection regulations.
RP3: Organize and control the supply and supply of materials to the work according to procedures established in the company, to cover the supply needs in the different phases of the assembly electrical substation, meeting criteria of efficiency, quality and safety for people, environment and facilities.
CR3.1 The necessary equipment, tools, and other technical resources are monitored by checking their suitability for each phase of the electrical substation assembly.
CR3.2 The supply of the various materials with respect to delivery times and conditions, storage and distribution management, coordinates, controls and monitors in accordance with the specifications and applicable regulations.
CR3.3 The quality of materials and other technical resources required for the installation is verified by checking their suitability for the technical specifications set out in the relevant standards.
CR3.4 The technical specifications of quality in the installation of the installation are verified, checking that they conform to the established standards.
CR3.5 The displacement and location of materials and equipment is managed according to the project logistics of the work with the required transport and lifting means and in safety conditions.
CR3.6 The tools, machinery, and auxiliary media are proven to be maintained for ease of use with maximum security and performance.
CR3.7 The organization and control of the supply and supply of materials to the work is carried out according to criteria of efficiency, quality and according to the plan of prevention of occupational risks and the regulations of environmental protection.
RP4: Organize and monitor the different phases of the assembly of electrical substations, to ensure that it is carried out according to the established planning, based on criteria of efficiency, quality and safety for the persons, the environment and facilities, and making appropriate adjustments on the basis of any contingencies that may arise.
CR4.1 The human teams involved in the assembly of electrical substations are organized and monitored ensuring their effectiveness and avoiding interference.
CR4.2 The information necessary to mount the electrical substation is transmitted and communicated to the workers in a clear manner, ensuring that the instructions given are sufficient and precise, avoiding errors in the interpretation and allowing the operatives to prepare the materials.
CR4.3 The placement and/or assembly of the metal structures that configure the porches in the weathering substations is organized and monitored according to the project specifications.
CR4.4 The placement of transformers and their auxiliary elements is organized and monitored according to the project specifications.
CR4.5 The assembly of insulators, bars, switches, dryers, and the rest of the electrical substation is organized and monitored, ensuring fidelity to the project.
CR4.6 The assembly of cells, cabinets and control boxes and measuring equipment is organized and monitored by checking the state of the borders and connections, grounding, ventilation, and other prescriptions reflected in the system. project.
CR4.7 The assembly of communication systems, control systems and protection systems is organized and monitored by checking the adequacy of the requirements reflected in the project.
CR4.8 The assembly of lightning rods (atmospheric, self-valves, among others) and grounding systems is organized and monitored according to project specifications.
CR4.9 The application of corrosion and oxidation protection products is organized and monitored according to project specifications.
CR4.10 The connection operations of the high-voltage lines to the substation are organized and monitored by verifying that they are performed according to technical specifications.
CR4.11 The organization and supervision of the different phases of the electrical substation assembly is carried out according to criteria of efficiency, quality and according to the plan of prevention of occupational risks and the regulations of environmental protection.
RP5: Monitor the commissioning and operation of the facilities to ensure that they are carried out in accordance with the regulatory conditions and specifications of the project, taking into account efficiency criteria, quality and safety for people, the environment and facilities.
CR5.1 The test plan for the commissioning of the electrical substation 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 The tests performed on the components of the installations 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 in accordance with what is specified in the project.
CR5.4 Emergency and alarm systems are monitored, checking that they respond to established contingency situations and the required efficiency conditions.
CR5.5 The security instructions and the tools and equipment required to it are monitored and checked that they are exposed and arranged in the places indicated in the project.
CR5.6 The installation service is monitored by verifying the performance of the control and control elements.
CR5.7 The monitoring of the commissioning and operation of the facilities is carried out on the basis of efficiency, quality and according to the plan for the prevention of occupational risks and the protection regulations. environmental.
RP6: Organize and control the implementation of the safety and health plan in the assembly operations of electrical substations to ensure the integrity of the people, the media and their environment.
CR6.1 The safety and health plan for the installation of the electrical substation installation is interpreted, planning the material resources necessary for its application.
CR6.2 The planning of the installation assembly work is done according to the requirements of the safety and health plan, moving the different operators under their command, training or necessary information concerning the requirements of that plan.
CR6.3 The professional risks arising from the assembly of the electrical substation are identified and controlled, managing the deployment and appropriate location of security infrastructures, as well as the use, operation and the conservation status of personal safety and security 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 prevention plan related to the installation assembly process is managed, paralyzing the job when security measures are not met or there is a risk to 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 electrical substation assembly processes ensuring compliance with legal requirements and the application of organizational criteria established by the company.
CR7.1 Project documents, schemas, material lists, operating manuals, and other technical documents are organized according to company requirements and criteria of 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 documentation of variations with respect to the project of the locations, technical specifications of elements or other contingencies arising are controlled and collected to constitute the documentary basis of the work.
CR7.4 The documentation related to the required official permissions on the work is managed by ensuring compliance with legal requirements.
Professional Context
Production media
Useful and mounting tools. Support structures, infrastructure for the replacement of heavy equipment, useful for lifting. Safety equipment. Plant components: insulators, switches, dryers, embarrages, cells, hybrid modules (in the atmosphere of sulphur hexafluoride gas), transformers, batteries, continuous current rectifiers, earth networks, lightning rods, GIS (isolated substations in gas atmosphere). Sulfur hexafluoride leak detectors. Elements for the management of waste. Measurement and protection equipment, communication equipment and control equipment. Specific software for the activity.
Products and results
Installing and connecting the components of the monitored electrical substations. Organization and control of the construction of the safety and occupational health plan in the assembly operations of electrical substations. Coordinated and integrated human teams. Documentation related to the processes of the managed power substation assembly.
Information used or generated
Projects, set and detail plans; principle diagrams and diagrams; parts and components listing; assembly programs, work parts, reports; technical specifications; catalogs; service manuals and use; instructions for assembly and operation; UNE standards. Electrotechnical low voltage regulation. Regulation on technical conditions and safety guarantees in high-voltage power lines. Regulation on technical conditions and security guarantees in power plants, substations and processing centres. Regulation and environmental legislation (regulation on fluorinated greenhouse gases, among others). Safety regulations and regulations. Regulation of pressure vessels and vessels. Technical Code of the Building. Quality standards.
Competition Unit 2
Naming: MANAGING AND MONITORING OPERATION AND MAINTENANCE OF ELECTRICAL SUBSTATIONS
Level: 3
Code: UC1532_3
Professional realizations and realization criteria
RP1: Monitor the operation on electrical substation equipment and components, to verify that it is performed in accordance with the established procedures, in coordination with the operation managers of the control, with criteria of reliability, energy efficiency, quality and safety for people, environment and facilities.
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 maneuvers in sectionators, electrical switches and other maneuvering elements are monitored, checking the correct operation of the devices and running according to the sequence established in the procedures, with the required security measures and in coordination with the control centre's operational managers.
CR1.3 Network connection maneuvers are monitored, checking that they are performed according to established procedures.
CR1.4 Equipment, systems, and sub-station (network disconnect) disablement or disabling maneuvers are monitored, checking that they are performed according to established procedures.
CR1.5 Checks and tests to be performed on disabled computers, systems, or installations are monitored, as well as corresponding signage.
CR1.6 The putting into service of a team whose temporary disablement or disablement has been nullified is monitored by checking that it is performed according to established protocols.
CR1.7 The monitoring of the operation on equipment and components of the electrical substation is performed according to criteria of reliability, energy efficiency, quality and according to the plan of prevention of occupational risks and environmental protection regulations.
RP2: Organize and supervise the preventive maintenance of electrical substations to ensure optimal operating conditions, and based on reliability, energy efficiency, quality and safety criteria for people, environment and facilities.
CR2.1 The tasks to be performed are identified, the documentation is prepared and the means, necessary resources (human and material) and procedures to be followed in the maintenance operations are determined predictive/preventive.
CR2.2 The specifications of the various materials and equipment used in the predictive/preventive maintenance of the electrical substation are determined for the management of their acquisition.
CR2.3 The stresses, intensities, temperatures and other parameters characteristic of the equipment in electrical substations are obtained from the measures provided by the various instruments and the observations performed on the substation, checking that they are in line with the reference values.
CR2.4 The values accepted as normal, the tuning points, and the limit values for each fundamental parameter of the process are identified and interpreted, promptly detecting deviations or failures.
CR2.5 The insulators, switches, dryers, and other appliances and equipment of the electrical substation are inspected by assessing their status and operability.
CR2.6 The process of reviewing cells, transformers, and other items submitted to periodic reviews are organized and controlled with the aim of optimizing maintenance.
CR2.7 The loss of coolant, hexafluoride and other environmental control factors are detected, interpreted and monitored in order to avoid harmful environmental conditions.
CR2.8 The possible waste produced is managed in accordance with the environmental law of the company and the environmental practices of the company.
CR2.9 The recycling or destruction of sulphur hexafluoride is ensured by applying regulatory procedures.
CR2.10 The organization of predictive/preventive maintenance of installations is performed using the documentation received and generated both technical and administrative.
CR2.11 The status and incident reports and control tabs related to the substation equipment and facilities are elaborated and communicated in accordance with the established procedure.
CR2.12 The organization and supervision of the preventive maintenance of the electrical substation is carried out according to criteria of reliability, energy efficiency, quality and according to the plan of prevention of occupational risks and environmental protection regulations.
RP3: Organize and supervise the corrective maintenance of electrical substations to ensure the restoration of the optimal conditions of operation of the substation with the minimum possible delay, with criteria reliability, energy efficiency, quality and safety for people, environment and facilities.
CR3.1 The tasks to be performed are identified, documentation is prepared, and the means, resources required (human and material) and procedures to be followed in corrective maintenance operations are determined.
CR3.2 The specifications of the various materials and equipment used in the corrective maintenance of the electrical substation are elaborated for the management of its acquisition.
CR3.3 The diagnosis of the failure and/or failure of the equipment, element or system of the electrical substation, is verified by applying techniques of analysis of the data taken to perform the assessment and using the information installation history and exploitation technique.
CR3.4 The organization of maintenance and repair of installations is performed using the documentation received and generated both technical and administrative.
CR3.5 The warehouse materials inventory and systems for distribution are organized, managed, and controlled.
CR3.6 The machinery, tools, mobile park, communication systems and other elements necessary for the execution of the different types of maintenance, are organized and controlled according to technical criteria.
CR3.7 Available human resources are organized and controlled with safety and efficiency criteria, transmitting the necessary information clearly, ensuring that the given instructions are sufficient and accurate, and avoiding errors in the interpretation.
CR3.8 Maintenance monitoring is carried out by controlling the quality of its execution and costs, obtaining the control indicators needed to establish the benchmarks that will profile the most effective lines of action. Convenient and resolving the contingencies with maximum efficiency and meeting the programmed objectives.
CR3.9 New equipment repair and assembly works are organized and monitored on the basis of technical requirements.
CR3.10 Data obtained from revisions or modifications of installations, are controlled and collected, to maintain up-to-date information systems and databases.
CR3.11 The management of the control tabs for the maintenance of the different elements, as well as the elaboration of the historical database are carried out using appropriate technological systems.
CR3.12 The organization and supervision of the corrective maintenance of the electrical substation is performed according to criteria of reliability, energy efficiency, quality and according to the plan of prevention of occupational risks and environmental protection regulations.
RP4: To enforce and supervise the protection, safety and risk prevention measures required in the operation and maintenance of electrical substations to safeguard the health and safety of the workers, environment and facilities.
CR4.1 Professional risks related to performances in electrical substations are detected and communicated to operation and maintenance personnel according to established procedures.
CR4.2 Risk prevention measures in stress-free performances are monitored in all cases following the so-called five gold rules.
CR4.3 Pertigas, insulating carpets, gloves and other accessories, useful and approved individual protective equipment are checked and checked to be used as risk prevention measures in operations and Stress actions.
CR4.4 Animal-related safety measures and the presence of personnel outside the facility are monitored and coordinated in accordance with the procedures established by the regulation or company.
CR4.5 The signaling and delimitation of the work zone is performed according to procedures established by the regulation or company.
CR4.6 Operations in electrical substations, especially those for voltage discharge and reset are always performed in coordination with the responsible control center.
CR4.7 The anomalous or potential risk situations for people, the environment and facilities, or for the stability of the process, are detected, where appropriate, by taking appropriate measures to recover the condition. secure, while the relevant information is transmitted to the control center responsible.
CR4.8 Performance procedures against accidents of any kind are carried out through the conduct of periodic practices and tests.
Professional Context
Production media
Monitoring systems and continuous monitoring of equipment. Control rooms. Protection and alarm systems. Field instrumentation. Operation and maintenance management systems: data acquisition and analysis, work order management, equipment download management. Quality management systems. Management of the documentation. Electromechanical measuring equipment and apparatus. Communication equipment and systems. Safety equipment and systems. Systems for detecting and extinguishing fires. Sulfur hexafluoride leak detectors. Elements for the management of waste.
Products and results
Operation over monitored electrical substation equipment and components. Maintenance of the organized and supervised electrical substation. Technical documentation and updated historical databases. Organization and control of the construction of the safety and occupational health plan in the operation and maintenance of electrical substations. Coordinated and integrated human teams. Refrigerants of transformers, sulphur hexafluoride, and other recycled or destroyed pollutants. Incidents reported. Installation documentation and certifications processed.
Information used or generated
Instructions manuals provided by the manufacturer or supplier. Programs and maintenance manuals, quality manuals, instruction books, operating procedures, testing protocols, alarm books. Plans and schemes: electric planes and schemes, flowcharts, automatisms diagrams. Electrical regulations, environmental regulations (regulation on fluorinated greenhouse gases, among others) and safety regulations, UNE standards. Historical archives: information systems for high-voltage installations and electrical substations. Safety manuals and procedures for action against accidents. Quality standards.
Competition Unit 3
Naming: OPERATE LOCALLY AND PERFORM FIRST-LEVEL MAINTENANCE ON ELECTRICAL SUBSTATIONS
Level: 2
Code: UC1533_2
Professional realizations and realization criteria
RP1: Operate systems, equipment and instruments of electrical substations to ensure optimal operating conditions, meeting regulatory requirements, and meeting reliability, quality criteria and safety for people, environment and facilities.
CR1.1 The discharge procedure is carefully followed before intervening on any component or installation of the electrical substation.
CR1.2 The switches, dryers, control systems, and other capable intervention systems are operated in coordination with the appropriate control center.
CR1.3 Equipment and instruments related to the data acquisition and communication systems of the electrical substation are operated according to established procedures.
CR1.4 Equipment and instruments related to ventilation, compressed air, and other substation equipment and ancillary systems are operated according to established procedures.
CR1.5 The protocol for service restitution is scrupulously followed in coordination with the appropriate control center.
CR1.6 Electrical substation systems, equipment and instruments are operated on the basis of criteria of reliability, quality and compliance with the occupational risk prevention plan and the protection regulations environmental.
RP2: Prepare for the maintenance of the first level of electrical substations according to the guidelines and specifications established to organize and facilitate their performance, based on criteria of reliability, quality and security for people, environment and facilities.
CR2.1 The different components of the installation are identified and localized from the instructions received, drawings, schemas, and technical specifications.
CR2.2 The plans, schemes, and technical specifications of the equipment and facilities to be maintained are identified and interpreted to clearly and accurately establish the performance to be performed.
CR2.3 The sequence of maintenance tasks is set out from instructions, plans, and technical documentation, according to the conditions of installation and needs of the equipment and facilities.
CR2.4 The required materials, tools, equipment, and other technical resources are selected and used according to the type of activity to be performed.
CR2.5 The work area is prepared according to the characteristics of the installation itself and according to established work procedures.
CR2.6 The first level maintenance of the electrical substation is prepared on the basis of criteria of reliability, quality and compliance with the occupational risk prevention plan and environmental protection regulations.
RP3: Perform first-level preventive maintenance on electrical substations from your maintenance plans, to ensure optimal operating conditions, meeting the requirements regulatory, and based on criteria of reliability, quality and safety for people, environment and facilities.
CR3.1 The visual inspection of power transformers, switches, dryers, self-valves, lightning rods, measurement transformers, insulators, barrages, earth networks, continuous current systems, alternate current, lighting, safety, and other components and systems of the electrical substation are performed according to the performance protocols.
CR3.2 The detailed review of power transformers, switches, dryers, self-valves, lightning rods, measurement transformers, insulators, barrages, earth networks, continuous current systems, Alternating current, lighting, safety and other components and systems of the electrical substation are carried out with the established periodicity and following the protocols of action.
CR3.3 The periodic tests of power transformers, switches, dryers, self-valves, lightning rods, measurement transformers, insulators, barrages, earth networks, continuous current systems, Alternating current, lighting, safety and other components and systems of the electrical substation are carried out with the established periodicity and following the protocols of action.
CR3.4 Equipment and facility cleaning operations are performed with the appropriate means and according to established procedures.
CR3.5 The level of noise and vibration of equipment is inspected and checked with the established periodicity and following the action protocols.
CR3.6 The tests for the operation of the revised equipment and equipment are carried out according to the manufacturer's instructions and those laid down in regulation.
CR3.7 Data collection by means of checklists, as well as possible detected dysfunctions and the transfer of information to management systems, are carried out and communicated with the necessary readiness to ensure the correct operation of the electrical substation.
CR3.8 Environmental control related equipment and facilities are maintained in compliance with regulatory requirements.
CR3.9 The equipment and tools used are reviewed and maintained in perfect operational status.
CR3.10 The results of the inspections and operations performed are collected in the corresponding report.
CR3.11 The first-level preventive maintenance operations of the electrical substation are performed according to criteria of reliability, quality and compliance with the occupational risk prevention plan and the environmental protection.
RP4: Perform first-level corrective maintenance on electrical substations, determining the order of action, using instruction manuals and drawings, and resetting the functional conditions for restore the optimal operating conditions, taking into account criteria of reliability, quality and safety for people, the environment and facilities.
CR4.1 The different breakdowns are detected, interpreted, and information is provided to assist in the initial assessment of their causes.
CR4.2 The sequence of actions for repair is established by optimizing the process in terms of security, method and time, selecting the necessary equipment, tools, materials, tools, and auxiliary means.
CR4.3 The replacement of consumables and the repair of other deteriorated basic elements are performed according to the sequence of the disassembly and assembly process established, within the intended time and with the quality required, checking its operation.
CR4.4 The performance tests of the replaced or repaired elements are performed according to the manufacturer's instructions and those laid down in regulation.
CR4.5 Installation functionality is backed out with the required prompt.
CR4.6 The parts and reports of the repair performed are completed in accordance with the established procedures.
CR4.7 Possible waste generated and other possible environmental conditions are managed in accordance with the environmental law of the company and the environmental criteria of the company.
CR4.8 The first-level corrective maintenance operations of the electrical substation are performed on the basis of reliability, quality and compliance with the occupational risk prevention plan and the environmental protection.
Professional Context
Production media
Useful and application tools. Support structures, infrastructure for the replacement of heavy equipment, useful for lifting. Safety equipment. Plant components: insulators, switches, dryers, embarrages, cells, hybrid modules (in the atmosphere of sulphur hexafluoride gas), transformers, batteries, continuous current rectifiers, earth networks, lightning rods, GIS (isolated gas substations in gas), measurement and protection equipment, communication equipment and control equipment.
Products and results
Power substations operated and maintained at first level. Incidents reported. Documentation and reports processed. Cohesive and efficient teams.
Information used or generated
Projects, set and detail plans; principle diagrams and diagrams; parts and components listing; maintenance programs, work parts, reports; technical specifications; catalogs; service manuals and use; instructions for assembly and operation; UNE standards. Electrotechnical low voltage regulation. Regulations on technical conditions and safety guarantees in power stations, substations, transformation centres and high-voltage power lines. Regulation and environmental legislation (regulation on fluorinated greenhouse gases, among others). Safety regulations and regulations. Regulation of pressure vessels and vessels. Technical Code of the Building. Quality standards.
Competition Unit 4
Naming: PREVENTING RISKS IN HIGH VOLTAGE ELECTRICAL INSTALLATIONS
Level: 2
Code: UC1530_2
Professional realizations and realization criteria
RP1: Identify and assess the occupational risks arising from work in the presence of electrical stress, and promote safe behaviour in the area of its competence for its implementation in the determination, establishment and adoption of appropriate measures to safeguard the health and safety of workers, the environment and facilities.
CR1.1 Safe behaviors are promoted among staff to foster workers ' interest and cooperation in preventative action.
CR1.2 Information and recommendations on job security and risk prevention are transmitted.
CR1.3 Basic preventive actions such as order, cleaning, signaling, and general maintenance are encouraged and monitored and monitored.
CR1.4 The place was worked and its surroundings are reviewed, in the field of its competence, to check the conditions of noise, ventilation, lighting, temperature, among others, and, if necessary, the person responsible is informed and the action procedures provided for in the risk prevention plan are applied.
CR1.5 The specific occupational risks related to works referred to as proximity to electrical voltage installations are identified and evaluated, proposing, where appropriate, preventive measures to eliminate or decrease them.
CR1.6 The specific occupational risks related to static electricity are identified and evaluated by linking them to their influence on the risks of explosion, proposing, where appropriate, preventive measures that remove or decrease them.
CR1.7 The specific professional risks related to the management of hexafluoride and other components of GIS technology are identified and evaluated, proposing, where appropriate, preventive measures to eliminate or decrease them.
CR1.8 The most frequent professional risks present in the management of portable tools and equipment used in the work in the presence of electrical voltage identify and evaluate, proposing, where appropriate, measures preventive to remove or decrease them.
CR1.9 The risks related to the maneuvers to connect or leave without electrical voltage an installation are identified and evaluated, proposing, if necessary, preventive measures that eliminate or decrease the same.
CR1.10 The risks arising from the replacement of fuses and other manoeuvres, measurements, tests and verifications at high voltage installations are identified and evaluated, proposing, where appropriate, preventive measures remove or decrease them.
CR1.11 The signaling of drivers, pipes, appliances, and equipment of the high voltage installations is identified and interpreted.
CR1.12 The risks identified and the proposals for preventive measures provided by workers are collected through participation in meetings, surveys and other procedures, with the transmission of higher by the established paths.
RP2: Control the occupational risks arising from the work in the presence of electrical voltage applying the corresponding preventive measures to safeguard the health and safety of the workers, environment and facilities.
CR2.1 The work method employed and the equipment and materials used are proven to ensure worker protection against electrical risk, ensuring that the operator cannot accidentally contact any other element to potential other than yours.
CR2.2 Screens, covers, pods and other insulating fittings are used in the coating of active parts or masses.
CR2.3 The tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms, gloves, goggles, screens, helmets and other tools and equipment for individual protection against electrical risks they choose to take into account the characteristics of the work and the service voltage, using them according to the manufacturer's instructions.
CR2.4 Job position lighting ensures that you can perform the work in appropriate visibility conditions.
CR2.5 Bracelets, watches, metal zip chains or closures, and other conductive objects that may be accidentally contacted with elements in tension are kept out of the work zone.
CR2.6 The work zone is signposted so that other workers or outsiders do not penetrate the zone and access elements in tension.
CR2.7 Heavy rain or wind, snow, storms and other unfavorable environmental conditions are taken into account even for the suspension of work.
RP3: Follow the established security protocol for the process aimed at leaving an installation without electrical voltage and in its subsequent reorder after the intended interventions are completed.
CR3.1 The part of the installation on which the job is to be performed is isolated from all power supplies.
CR3.2 The maneuvering devices used to disconnect the installation are secured against any possible reconnection, by blocking the mechanism and signaling the prohibition of the corresponding maneuver.
CR3.3 The correct operation of the stress absence verification devices is checked before proceeding to its use and after the stress absence verification.
CR3.4 The absence of tension is verified on all the active elements of the installation.
CR3.5 The parts of the installation where you are going to work are grounded and short-circuit, ahead and behind the work zone, making sure this connection is visible from the workplace.
CR3.6 The grounding is assured to remain properly connected during the time the job is performed.
CR3.7 The work zone is protected against upcoming items in tension, delimited, and security signage is set.
RP4: Manage and maintain in perfect state of use the safety and personal protection equipment used in electrical installations, as well as to promote their use, to guarantee their effectiveness and adaptation to the rules in force.
CR4.1 General personal protective equipment and work clothes are identified and selected according to the needs of the activity and in the regulatory conditions.
CR4.2 The specific safety equipment for the control of falls, such as harness, anti-cancer belt and safety rope are identified and managed taking into account the current regulations.
CR4.3 The tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms and other performance tools in electrical installations are maintained according to the manufacturer's instructions.
CR4.4 Individual protective equipment is reviewed regularly, reporting deteriorated or unfit items for purchase and replacement.
CR4.5 The operation of the telecommunication media is checked and guaranteed in all cases.
CR4.6 The use of security and personal protection equipment is promoted among staff to encourage the interest and cooperation of workers in preventive action.
RP5: Acting in emergency and first aid cases quickly, effectively and safely, managing the first interventions to the effect and coordinating with those responsible and emergency services, applying the techniques and required protocols in each situation.
CR5.1 The information channels and means available for emergency actions are identified in advance by ensuring that they are fully operational.
CR5.2 Fire fighting equipment, alarm means, evacuation routes and emergency exits are checked, checking that they are well signposted, visible and accessible, to act in situations of emergency and in accordance with the regulations.
CR5.3 The responsibility of first-intervention team leader, if applicable, is assumed with warranty.
CR5.4 The protection of the crashed and the isolation of the cause causing the accident is done immediately.
CR5.5 The assessment of the emergency is performed by following the procedures defined in the security regulations.
CR5.6 The request for emergency assistance is made as set out in the security plan and in the current regulations, ensuring, in any case, the speed and effectiveness of the emergency plan.
CR5.7 First aid is provided according to the prescribed health recommendations for each case.
CR5.8 Emergency tests or drills are performed periodically according to established schedule.
RP6: Collaborate with the personnel responsible for the job risk prevention plan in managing the plan.
CR6.1 The collaboration in controlling the general and specific risks and in the updated maintenance of the company's occupational risk prevention plan is done.
CR6.2 Experiences acquired in unforeseen and anomalous situations are used to propose the review of the safety measures set out in the risk prevention plan and improvements in procedures and procedures. instructions for action in these cases.
CR6.3 Complaints or suggestions regarding safety and prevention aspects are addressed, recorded and channeled to the personnel responsible for the risk prevention plan.
CR6.4 The collaboration with the security officer in carrying out training, practices, drills and management of signalling equipment, protection, confinement and extinction and in the dissemination of the master lines the emergency plans are carried out at the required frequency.
Professional Context
Production media
Work tools, tools, and measuring devices. Equipment for the movement of materials, cranes, tros, hoists, hydraulic jacks; hand tools, dynamometer keys, maces, level, thickness meter, electric drill, hydraulic terminal tenures, polymeter, meter isolation, tellurometer. Personal and collective protective equipment. Security features. Personal safety equipment and specific auxiliary systems for the lump-sum and reduction of equipment and tools. Means of detection and extinction of fires. Means of evacuation, action and first aid. Telecommunications systems. First aid kit. Ergonomic elements of a job. Telecommunications systems. Protection against lightning, security and surveillance systems.
Products and results
Professional risks derived from actions in identified and controlled electrical installations, acting in emergency cases and applying first aid if necessary. Supervised and informed staff. Reliable and secure work environments.
Information used or generated
Safety plan in the mount. Safety plan for the maintenance of power stations and substations. Safety manual for the maintenance of transformers; first aid manual; projects, plans of assembly and detail; instructions for assembly and operation; UNE standards, electrical regulations, environmental regulations, security regulations.
III. TRAINING OF THE CERTIFICATE OF PROFESSIONALISM
FORMATIVE MODULE 1
Naming: MANAGING AND MONITORING THE ASSEMBLY OF ELECTRICAL SUBSTATIONS
Code: MF1531_3
Professional qualification level: 3
Associated with the Competition Unit:
UC1531_3: Manage and monitor power substation mount
Duration: 150 hours
FORMATIVE UNIT 1
Naming: PLANNING FOR PROVISIONING AND MOUNTING ELECTRICAL SUBSTATIONS
Code: UF1773
Duration: 80 hours
Competition reference: This training unit corresponds to RP1, RP3, and RP7 as referred to the documentation for the schedule.
Assessment Capabilities and Criteria
C1: Interpret the technical documentation, regulations and standards related to electrical substations specifying the composition, characteristics and operation of the substations, as well as the general phases of a process assembly.
CE1.1 Describe the different documents that make up a project of an electrical substation by distinguishing the different types of planes that compose it and interpreting the elements of technical normalization.
CE1.2 Describe the fundamental requirements of regulations and standards applicable to this type of facility.
CE1.3 Describe the overall development phases of an electrical substation assembly process, identifying its technical phases from time to time.
CE1.4 Represent schemes, drawings and drawings of electrical substations and their components to facilitate their mechanical and electrical assembly.
CE1.5 Manage and interpret graphical information of electrical substations developed in computer representation systems by performing copying or modification of data, using standardized procedures, corresponding to specific design and representation programmes for electrical installations.
CE1.6 List and describe the technical and administrative documentation related to the installation of the installation according to the type and management process to be followed.
CE1.7 In a practical scenario referred to an electrical substation 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 components: power transformers, switches, sectionators, self-valves, metasformers, insulators, barrages, earth networks, systems of Protection and measurement, control, communications, continuous current, continuous power supply (SAI), auxiliary AC, lighting, lightning protection, fire protection, safety and security systems, and other components and systems of the electrical substation.
-Relate the composition and characteristics of the electrical substation to the regulatory requirements that apply to it.
-Razor the operation of the installation, describing the function, structure, and composition of the different parts that configure it.
-Meet the installation management documents associated with the installation.
C2: Develop provisioning plans for the assembly of electrical substations from the selection and analysis of the information extracted from the project, from the related regulations and rules.
CE2.1 Indicate the project parts that are applicable in the provisioning schedule.
CE2.2 Citar regulations and application rules in provisioning planning.
CE2.3 In a practical case of mounting an electrical substation characterized by drawings and corresponding technical documentation:
-Select project parts that are useful for planning provisioning.
-Select the application regulations and regulations that are useful for scheduling provisioning.
-Analyze and extract from the selected documentation the information required for the provisioning plan elaboration.
-Determine the technical prescriptions required of the components.
-Determine the quality control criteria in the various stages that configure provisioning.
-Describe the procurement logistics of materials and equipment.
-Design the provisioning of security systems and equipment in the assembly.
-Develop the provisioning plan by coordinating the mount plan with the provisioning and storage capabilities.
C3: Develop power substation assembly plans from the project, regulations, and related rules.
CE3.1 Indicate the project parts that are applicable to the mount schedule.
CE3.2 Refer to regulations and standards, including those regarding quality and safety, of application in the planning of the assembly.
CE3.3 Describe the different techniques to be used in the electrical substation assembly processes: tensioning, assembling, leveling, anchoring, connection.
CE3.4 Relate the human resources involved in the different phases of the electrical substation assembly operations.
CE3.5 Describe the mount job optimization procedures.
CE3.6 Represent work organization and time control schemes in the assembly of electrical substations using appropriate diagrams and schedules at their level.
CE3.7 Explain the techniques of organization, motivation and effective management of human equipment.
CE3.8 Describe and assess the implementation of the safety and health plan in the assembly of electrical substations.
CE3.9 In a practical case of working out a work plan for the assembly of an electrical substation characterized by the drawings and the corresponding technical documentation:
-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 job.
-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 mount sequence by using a flow-gram.
-Use computer programs used in the planning of substation projects to sequence and organize the execution of a work.
-Define the assembly techniques on the key points of the installation.
-Determine the corrective measures to be taken in anticipation of possible deviations in relation to the plan of the work.
-Evaluate possible environmental impacts and develop strategies to minimize and neutralize the effects of those considered as inevitable.
-Planting the application of the job health and safety plan.
-Prepare the electrical substation mount plan.
Contents
1. General characteristics of electrical substations.
-Typology.
-Electrical substation components.
-Symbology.
-Single-core schemas.
2. Electrical substation equipment and installations:
-Description and features of equipment and installations:
-Switches.
-Sectors.
-Autovalves.
-Isolators.
-Barras.
-Power transformers.
-Measure transformers.
-Swept.
-Pararrays.
-Land Bridges.
-Measurement systems.
-Protections systems.
-Communications systems.
-Digital control systems, integrated and remote stations.
-Auxiliary systems.
-Security and surveillance systems.
-Fire protection systems.
-Other auxiliary power substation systems.
-Disposition on the terrain of equipment and facilities.
-Description of the operation of electrical substations.
3. Documentation and regulations related to electrical substations.
-Technical documentation of equipment.
-Installation technical documentation.
-Documentation of the materials.
-Administrative documentation for mounting an electrical substation.
-Regulations and regulations.
-Composition of a project in an electrical substation.
-Flat types.
4. Planning the provisioning and assembly of electrical substations
-Electrical foundations of the electrical substation assembly.
-Mechanical foundations of the electrical substation assembly.
-Planning techniques.
-Graphic layout of substations.
-Methodological specifications for assembly of equipment and installations:
-Switches.
-Sectors.
-Autovalves.
-Isolators.
-Barras.
-Power transformers.
-Measure transformers.
-Swept.
-Pararrays.
-Land Bridges.
-Measurement systems.
-Protections systems.
-Communications systems.
-Digital control systems, integrated and remote stations.
-Continuous current auxiliary systems.
-Uninterruptible Power Auxiliary Systems (SAI).
-Alternate current auxiliary systems.
-Security and surveillance systems.
-Fire protection systems.
-Other electrical substation equipment and installations.
-Material and equipment provisioning plans for assembly.
-Provisioning Logistics.
-Fundamental requirements of the application regulations.
-Software supporting the management of the assembly.
5. Plans for mounting electrical substations.
-Electrical substation assembly techniques.
-Tensado.
-Assembly.
-Settlement.
-Neveled.
-Anchor.
-Conexion.
-Mount plans.
-Flows
-Diagrams
-Cronograms.
-Machinery and equipment used in the assembly.
-Determination and selection of equipment and elements required for mounting from the installation plans.
-Quality standards in the mount.
6. Organization of work and human factor.
-Required human equipment in each part of the mounting process
-Work organization techniques.
-Human equipment motivation techniques.
-Human equipment management techniques.
FORMATIVE UNIT 2
Naming: Assembly, monitoring, and commissioning of electrical substations.
Code: UF1774
Duration: 70 hours
Competition reference: This training unit corresponds to RP2, RP4, RP5, RP6, and RP7 as referred to the documentation for mounting, monitoring, and commissioning.
Assessment Capabilities and Criteria
C1: Describe and monitor the procurement and assembly processes of electrical substations to ensure compliance with the objectives programmed in the assembly plan with the required quality and safety and in time established, and in accordance with the rules of application.
CE1.1 Define the required requirements for the preparation of the work area according to the requirements of the work itself.
CE1.2 Describe the assembly operations of switches, dryers, and other parts, and the procedures for their control.
CE1.3 Describe the connection operations of the high-voltage lines to the substation, and the procedures for their control.
CE1.4 Describe transformer assembly and connection operations, and procedures for their control.
CE1.5 Describe the mounting operations of the air and air connections, and the procedures for their control.
CE1.6 Describe the assembly and connection operations of the networks and earth sockets, and the procedures for their control.
CE1.7 Describe the assembly operations of communication, regulation and control systems, and auxiliary equipment, and procedures for their monitoring.
CE1.8 Define the alignment, orientation, and inclination criteria in the placement of the different components.
CE1.9 Describe a quality plan relating to the assembly process and quality standards, as well as the procedures for the control of its application.
CE1.10 Describe occupational and environmental risk prevention plans, relating them to the assembly process, and the procedures for the control of their application.
CE1.11 Describe the documentation used and generated in the electrical substation assembly processes.
CE1.12 In a practical case of monitoring the provisioning of an electrical substation:
-Interpret the technical documentation by identifying the different equipment and other items.
-Interpret the provisioning plan by indicating established equipment, items, materials, technical and security means.
-Determine critical points and relevant aspects applicable to the control and monitoring of procurement processes in the assembly of electrical substations with the required quality and safety.
-Make plans for the displacement of equipment and materials, as well as for their location in the ideal place according to the work to be done.
-Determine the relevant aspects in the prevention of occupational and environmental risks, relating them to the procurement process, and the procedures for the control of their application.
-Meet the documentation associated with the power substation provisioning processes.
CE1.13 In a practical case of monitoring the assembly of an electrical substation:
-Interpret the technical documentation by identifying the different equipment and other items.
-Interpret the mount plan by indicating the phases, systems, equipment, elements, materials, technical and security means.
-Detect possible mounting difficulties and indicate which solutions can be adopted.
-Determine critical points and relevant aspects applicable to the control and monitoring of electrical substation assembly processes with the required quality and safety.
-Determine the quality criteria in the finish of the installation of the electrical substation, according to established procedures and application regulations.
-Determine the relevant aspects in the prevention of occupational and environmental risks, relating them to the assembly process, and the procedures for the control of their application.
-Meet the documentation associated with the electrical substation assembly processes.
C2: Relevant aspects in the control of the repose and assembly of electrical substation structures, from the technical documentation.
CE2.1 Analyze a project of an electrical substation by determining the intended structures and benches in it.
CE2.2 Citar regulations and enforcement rules in the control of the repose and assembly of electrical substation structures.
CE2.3 Indicate the different types of efforts that the structural elements of the installation are subjected to, valuing the adaptation of the geometry of the structure to the same.
CE2.4 Consult in technical catalogues the characteristics of the resistant, fastening and anchoring systems that are necessary in the assembly of electrical substations, choosing the most appropriate according to the type of installation, environmental, terrain or building environment.
CE2.5 Describe the repose operations of electrical substation structures and installations.
CE1.6 Given a practical case or actual installation of an electrical substation from the project or memory, in which the different support structures are detailed:
-Interpret the technical documentation by identifying the different systems, equipment, and elements of the structure.
-Determine the degree of adequacy of the solution established in the project to the reality of the terrain.
-Check the dimensions of the hardware, braces, and other resistant elements.
-Determine the most problematic points in relation to the efforts that the different elements of the structure are subjected to.
-Determine the processes and operations for mounting, in terms of securing and anchoring, of each of the resilient systems.
-Repose the structure, facilities, and storage areas and work on the ground.
-Determine the tests and tests to be performed on the structures previously supported.
C3: Monitoring the commissioning and operation of electrical substation facilities from the technical documentation.
CE3.1 Citar regulations and enforcement rules in the supervision of commissioning and operation of electrical substation facilities.
CE3.2 To indicate the actions to be performed for the commissioning of electrical substations and to cite the safety tests to be submitted to the installations according to the implementing regulations.
CE3.3 Indicate the actions to be performed for the verification of the operation of electrical substations according to the implementing regulations.
CE3.4 Define the measurement parameters and procedures to be used in the commissioning and operation tests required by the application regulations.
CE3.5 Describe the documentation used and generated in the electrical substation commissioning processes.
CE3.6 In a practical case of monitoring the commissioning and operation of the facilities of an electrical substation:
-Analyze and extract from the technical documentation the information regarding the test plan for the commissioning of the electrical substation.
-Determine the tests and operations to be performed on the components of the facility to verify compliance with regulatory technical requirements.
-Determine the adjustments to be made to the system's security, protection, and operation control elements.
-Determine the safety instructions and tools and equipment needed for the electrical substation to be put into service.
-Determine the critical points and relevant aspects applicable in the supervision of the commissioning of the electrical substation facilities, with special impact on the performance of the regulatory elements and control.
-Meet the documentation associated with the electrical substation commissioning processes.
Contents
1. Monitoring the assembly of electrical substations
-Interpretation of the provisioning plan.
-Preparing work areas for staging activities.
-Assembly of equipment and installations.
-Equipment and facilities conexion.
-Connecting the substation to high-voltage lines.
-Civil work: displacement and lifting of materials and equipment.
-Quality in the assembly of electrical substations.
-Application rules and criteria.
-Technical Prescriptions Pliegos.
-Safety and occupational health plan in the assembly of electrical substations.
-Environmental protection during assembly of electrical substations.
2. Reposing and mounting structures.
-Structures. Geometry and basic calculations.
-Repose techniques and assembly of structures and facilities.
-Repose procedures and assembly of structures and facilities.
-Types of efforts.
-Wind and snow actions.
-Technical catalogs of the fastening and anchoring systems.
-Adaptation and improvement of facilities.
3. Commissioning of electrical substations
-Procedures for commissioning and operating electrical substations.
-Organization of the tests.
-Functional tests:
-Switches.
-Sectors.
-Autovalves.
-Isolators.
-Power transformers.
-Measure transformers.
-Pararrays.
-Land Bridges.
-Measurement systems.
-Protections systems.
-Communications systems.
-Digital control systems, integrated and remote stations.
-Auxiliary systems.
-Security and surveillance systems.
-Fire protection systems.
-Adjustments:
-Control circuits.
-Protections.
-Measurement elements.
-Communications elements.
-Verification and commissioning:
-Alarm and communication systems.
-Stream systems continue.
-Uninterruptible Power Systems (SAI).
-Power of alternating current auxiliary systems.
-Lighting.
-Land network.
-Pararrays.
-Fire safety systems.
-Surveillance and physical security systems.
-Other auxiliary systems
-Critical point control.
-Handling of SF6 fluorinated gas used in transformers
-Security tests of the facilities for the commissioning of the substation.
-Technical documentation related to commissioning.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº 80 | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| 80 |
80 | 80 | 80 | 80 | 80 | 80 | 80 |
| 40 | |
| Formunity 2- UF1774. | 70 | 20 |
Sequence:
The formative unit 2 must be imparted once the formative unit 1 is exceeded.
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 2
Naming: MANAGING AND MONITORING THE OPERATION AND MAINTENANCE OF ELECTRICAL SUBSTATIONS
Code: MF1532_3
Professional qualification level: 3
Associated with the Competition Unit:
UC1532_3 Manage and monitor operation and maintenance of power substations
Duration: 180 hours
FORMATIVE UNIT 1
Naming: Managing and monitoring the operation of power substations.
Code: UF1775
Duration: 90 hours
Competition Referrer: This training unit corresponds to RP1 and RP4 in terms of monitoring protection, security, and risk prevention measures in the substation operation. power.
Assessment Capabilities and Criteria
C1: Analyze the operation of electrical substations, identifying the different systems involved, their technical characteristics, functions, relevant operating parameters, and associated regulations or regulations.
CE1.1 Define an electrical system and explain, reasoning the types of transformations involved and characterizing the equipment used in electrical substations.
CE1.2 Identify and interpret the regulations or regulations associated with the operation of electrical substations.
CE1.3 Identify the different types of substations.
CE1.4 Detailed the general configuration of the input and output to the electrical substations of the high voltage lines from the production or transport system.
CE1.5 Describe the elements of civil work, foundations, supports and infrastructures for the replacement of the usual heavy equipment in the electrical substations.
CE1.6 Specify the general arrangement and functions of insulators, switches, dryers and other appliances and elements of protection, detection, signalling and manoeuvring of electrical substations.
CE1.7 Explain the usual locations and functions of cells, hybrid modules, transformers, and embedded in electrical substations.
CE1.8 Explain the usual locations and functions of batteries and rectifiers of continuous current, ground and lightning networks.
CE1.9 Describe GIS technology (isolated gas-atmosphere substations) and components of electrical substations based on it.
CE1.10 Describe the monitoring and control systems and the main control loops of an electrical substation.
CE1.11 Interpret electrical substations electrical schemes.
CE1.12 Describe the environmental control procedures of electrical substations and available technologies for the reduction of potential impacts.
C2: Determine the key aspects in the monitoring of the operation of electrical substations, based on the technical documentation, applying standard procedures and corresponding regulations.
CE2.1 Citar regulations and enforcement rules in monitoring the operation of electrical substations.
CE2.2 Identify the components of electrical substations on which it is possible to act to modify the normal operating conditions.
CE2.3 Explain the procedures for action or action on maneuver elements and other systems susceptible to intervention analyzing the consequences of each action.
CE2.4 Describe the general procedure for discharging or disabling equipment, systems and the electrical substation in such a way as to ensure the necessary safety for people, the environment, equipment and process.
CE2.5 Define the checks and tests to be performed on disabled computers, systems, or installations and the required signage.
CE2.6 Describe any interventions on the operation of the substation that can be performed remotely from the corresponding control center by defining the coordination criteria with the staff involved.
CE2.7 Define the checks and protocols to be followed prior to the putting into service of a team whose temporary disclaimer or disablement has been nullified.
CE2.8 On a practical assumption of an electrical substation characterized by technical documentation:
-Interpret the technical documentation by identifying the different teams and components on which to act.
-Determine the critical points and relevant aspects applicable to the operation monitoring.
-Determine the relevant aspects in the prevention of occupational and environmental risks, relating them to the operation and procedures for the control of their application.
Contents
1. Fundamentals of operation of electrical substations.
-Defining an electrical system:
-Power generation. Types of power plants.
-Electric power transport.
-Power distribution.
-Mallada network.
-Power transformation in an electrical system.
-Connecting the substations to the electrical system.
-General functions of electrical substation components.
2. Physical configuration of electrical substations.
-Classification of substations.
-Locations and functions:
-Switches.
-Sectors.
-Transformers.
-Cells.
-Swept.
-Land networks.
-Pararrays.
-Battery, continuous current rectifiers, and electrogens.
-Replacing heavy equipment:
-Civil work items and foundations.
-Supports and structures for the installation of the equipment.
-Armoured substations.
-Isolated gas atmosphere substations (GIS).
-Composition of a GIS electrical substation.
-Monitoring and control of electrical substations:
-Control Center.
-Telematics of equipment.
-Local command of equipment and installations.
-Planes and schemes used in high-voltage power substations.
3. Regulations and procedures for the operation of an electrical substation.
-Electrical substation regulations and regulations.
-Environmental regulations and regulations.
-Safety and health regulations and regulations.
-General procedures for downloading and disabling equipment.
-Procedures for replacing the equipment service.
-Take action procedures on equipment and installations.
4. Monitoring the operation of electrical substations.
-Ordinary operating conditions.
-Operating parameters for electrical substation components and equipment.
-Operating tests, tests, and parameter measurements.
-Distance interventions in a substation: telecontrol, telemando, and telemedide.
-Anti-intrusive people and animals.
5. Download management.
-Discharge concept.
-Organigram of an electrical substation.
-Functions of the work teams.
-Organization of discarding jobs.
-Jobs without tension.
-Stress jobs and interventions.
-Criteria for isolation or unloading of equipment.
-Process of request, execution, and lifting of a download.
-The job authorization form. Content and use.
FORMATIVE UNIT 2
Naming: Managing and monitoring the maintenance of electrical substations.
Code: UF1776
Duration: 90 hours
Competition Referer: This training unit corresponds to RP2, RP3, and RP4 as referred to the monitoring of protection, security and risk prevention measures in the maintenance of power substations.
Duration: 90 hours
Assessment Capabilities and Criteria
C1: Determine the activities, procedures, human resources and materials involved in the planning of the maintenance of electrical substations, based on the analysis of the technical documentation.
CE1.1 Describe the technical documentation referred to the electrical substation required to perform the planning of its maintenance.
CE1.2 Identify, in the maintenance project or plan, the equipment and elements of the electrical substations that can be maintained.
CE1.3 Indicate the critical points of an electrical substation in which breakdowns, their causes and the functional consequences can occur and for the safety of them.
CE 1.4 Explain the techniques of organization, motivation and effective management of human equipment.
CE1.5 Compose the procedure to be followed for the detection of the most common breakdowns in electrical substations.
CE1.6 Develop specifications for different materials to manage your acquisition in the maintenance process.
CE1.7 Compose the usual preventive maintenance procedures in electrical substations.
CE1.8 Describe the security 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 intervention process.
CE1.9 In an electrical substation maintenance scenario or case, where different types of parts or equipment are to be replaced, with the help of the technical documentation:
-Set the order or sequence of the different unmount and mount tasks, detailing previous security-related operations.
-Define the specifications of the operations to be performed.
-Describe the technique to be used in the various tasks, setting necessary materials, media, tools, times, and human resources.
-Planting the requirements and tasks concerning the security of the operation.
-Develop a report documenting the scenario or scenario.
CE1.10 In a practical case of an electrical substation, starting from the manual of maintenance instructions, plans, schemes and other technical documents:
-Determine the maintenance operations to be performed on the electrical substation.
-Determine the procedures to be applied in the electrical substation maintenance operations.
-Determine the human and material resources required to perform preventive maintenance operations.
-Determine the human and material resources required to perform the most common corrective maintenance interventions.
C2: Apply programming techniques that optimize resources in order to develop intervention programs and to track the maintenance of electrical substations.
CE2.1 Describe the types of maintenance to be performed on power substations.
CE2.2 Explain the different programming techniques of preventive maintenance and the requirements that must be met in each one.
CE2.3 Interpret a workload chart.
CE2.4 Describe the capabilities and organization of a software for maintenance management and control.
CE2.5 Detailed the operation of the telecontrol and telemedide systems of electrical substations.
CE2.6 Explain the various components of maintenance costs and systems to optimize them.
CE2.7 In a practical case of developing a maintenance plan for an electrical substation:
-Determine the intervention types and performance times for each of them.
-Set the human resources workloads and the material means necessary for the maintenance to be performed.
-Develop the relationship of parts and consumable products that are required.
-Perform an annual maintenance budget, breaking down the cost into your components: spare parts, unplanned outages, labor, travel, taxes, and other associated expenses.
-Develop proposals for intervention programs and follow-up to the maintenance of electrical substations that optimize resources.
C3: Specify the critical points to consider in monitoring the maintenance of an electrical substation from the maintenance plan, and meeting quality and safety criteria.
CE3.1 Describe the maintenance and repair operations of the supports, anchors, and other structural components of the electrical substations, and the procedures for their control.
CE3.2 Describe maintenance and repair operations on the switches, sectionators, and rest of the substation, and the procedures for their control.
CE3.3 Describe the maintenance and repair operations of transformers, and the procedures, for their control.
CE3.4 Describe maintenance and repair operations on surge and surge protection systems, and procedures for their control.
CE3.5 Describe maintenance and repair operations on all other protection, detection, signaling, maneuvering, and auxiliary systems, and procedures for their control.
CE3.6 Describe the commissioning procedures for an electrical substation once it has been repaired or the maintenance operations have been performed.
CE3.7 Describe a quality plan relating to the maintenance process and quality standards, as well as the procedures for monitoring your application.
CE3.8 Describe occupational and environmental risk prevention plans, relating them to the maintenance process, and the procedures for the control of their application.
CE3.9 In practical cases of conducting checks or preventive maintenance and repair operations of the electrical substation components:
-Interpret the maintenance plan and the supplemental technical documentation.
-Specify the process of acting in the identification of faults and possible causes to which it obeys.
-Evaluate that the operations to be performed on the plan are the ones required and the means to perform them are the right ones.
-Analyze that both check and repair operations conform to the established work procedures.
-Justify the security and environmental measures established in the performance of all operations.
-Detailed the procedures for putting into service the component maintained or, where appropriate, the electrical substation itself.
-Determine the relevant aspects in the prevention of occupational and environmental risks, relating them to the maintenance process, and the procedures for the control of their application.
-Determine critical points and relevant aspects applicable to the control and monitoring of electrical substation maintenance processes with the required quality and safety.
-Meet the documentation associated with the electrical substation maintenance processes.
Contents
1. Planning for the maintenance of electrical substations
-Substation technical documentation for maintenance.
-Maintenance types in electrical substations.
-Critical points of a substation.
-Identifying and locating critical points.
-Relationship of causes of faults to critical points.
-Functional consequences of breakdowns.
-Security Consequences.
-Operating tests, tests, and parameter measurements.
-Elaboration of specifications for materials.
-Common preventive maintenance procedures.
-Dismounting and mounting of equipment to perform maintenance.
-Security plan in the maintenance process.
-Technical documentation for the intervention process.
-Human resources and materials needed to perform maintenance interventions.
2. Intervention programmes and monitoring of the maintenance of electrical substations.
-Predictive maintenance programming techniques.
-Workload graphics.
-Human resources.
-Materials.
-Software for maintenance management and control.
-Components of maintenance costs. Breakdown.
-Intervention and follow-up programs for optimizing the resources required for maintenance.
3. Monitoring the maintenance of electrical substations.
-Interpretation of the maintenance plan.
-Maintenance and repair activities for:
-Substation structures.
-Appearance.
-Measure and power transformers.
-Swept.
-Protection systems against overvoltages and earth sockets.
-Protection, detection, signalling, and maneuver systems.
-Auxiliary services.
-Procedures for maintenance control on:
-Substation structures.
-Appearance.
-Measure and power transformers.
-Swept.
-Protection systems against overvoltages and earth sockets.
-Protection, detection, signalling, and maneuver systems.
-Auxiliary services.
-Monitoring the process of disabling equipment. Downloading the network.
-Spare management. Replacing items.
-Handling and transport of heavy equipment.
-Repair-replacement reports.
-Adjustment and commissioning procedures for equipment.
-Reset the network.
-Scheduled operations. Registration. Checklists.
-Quality plan in the maintenance process.
-Risk prevention plan in the maintenance process.
-Environmental protection plan in the maintenance process.
4. Breakdowns.
-Procedures for detecting breakdowns.
-Predictive techniques.
-Visual inspection.
-Monitoring by thermographies
-Noise measurement
-Vibrations.
-Technical diagnosis of breakdowns in electrical substations.
-Typical Averies.
-Critical Averies.
-Historical.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº 90 | |||||||
|---|---|---|---|---|---|---|---|---|
|
| 90 | 90 | 90 | 90 | 90 |
| ||
| Formunity 2- UF1776. | 90 | 60 |
Sequence:
Training units 1 and 2 can be programmed independently.
Access criteria for pupils
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 3
Naming: LOCAL OPERATION AND FIRST-LEVEL MAINTENANCE ON POWER SUBSTATIONS
Code: MF1533_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1533_2: Operate locally and perform first-level maintenance on power substations
Duration: 120 hours
FORMATIVE UNIT 1
Naming: Local operation and first-level preventive maintenance on power substations.
Code: UF1777
Duration: 90 hours.
Competition reference: This training unit corresponds to RP1, RP2, and RP3.
Assessment Capabilities and Criteria
C1: Define the key aspects of the operation and maintenance of the first level of electrical substations identifying the different systems involved, their technical characteristics, functions and relevant operating parameters, as well as the associated regulations and regulations.
CE1.1 Indicate regulations and regulations affecting the operation of electrical substations in safe conditions.
CE1.2 Describe the operation of an electrical substation from the corresponding technical documentation, identifying its parts, equipment and components from the point of view of the operation and maintenance of the first level.
CE1.3 Identify the different elements on which you operate on planes of electrical substations.
CE1.4 Identify the different elements on which preventive maintenance must be carried out from a particular maintenance program in planes of electrical substations.
CE1.5 Explain the influence of first-level operation and maintenance on the overall operation of electrical substations.
CE1.6 Describe the discharge procedure to be followed before intervening on any component or installation of the substation.
CE1.7 Describe the usual procedure of operation on switches, dryers, control systems and other capable systems of action and the respective consequences in the installation.
CE1.8 Razor the consequences, for a given installation, of the breakdowns in your critical points.
CE1.9 Describe the protocol to be followed for the restitution of the service in a coordinated way with the control center.
CE1.10 In a practical case of an electrical substation characterized by the installation plans and the commissioning and maintenance manuals:
-Describe the usual operations on each of the components of the installation.
-Explain the types of maintenance operations to perform.
-Justify the periodicity of the maintenance operations to be performed.
-Explain the substation equipment's discharge procedure.
-Determine the times for each intervention.
-Define the technical and human resources involved in operations.
-Simulate the protocol to be followed for service backout.
C2: Apply operating techniques for electrical substation systems, equipment and instruments.
CE2.1 Locate the system, equipment, or instrument to operate on from the interpretation of the information provided.
CE2.2 Define the security requirements to operate on the different equipment according to established procedures by assessing the existing risks.
CE2.3 Check and control the consequences of the performance in the different systems, equipment and instruments of electrical substations that are eventually involved locally.
CE2.4 In a practical, real or simulated case, of an installation of an electrical substation that is available with plans and commissioning manuals:
-Interpret the documentation provided and locate the system, equipment, or instrument to act on.
-Rate risks and define security requirements.
-Operate on switches, dryers, control systems, and other capable systems.
-Describe and analyze the consequences of each performance.
-Compose report.
C3: Perform first-level preventive maintenance operations on power substation installations under quality and safety conditions.
CE3.1 Organize, prepare, and use the materials, equipment, and tools necessary to perform preventive maintenance tasks.
CE3.2 Reasoning the need for preventive maintenance operations on transformers and other equipment and components of electrical substations according to an established method.
CE3.3 Describe the procedures to be applied in the preventive maintenance operations of electrical substations equipment and components.
CE3.4 In a practical, real or simulated case, of an installation of an electrical substation characterized by the installation plans and commissioning and maintenance manuals:
-Check the overall status of the different systems in the substation.
-Identify the items on which preventive maintenance operations are to be performed.
-Prepare the work area according to the requirements of the intervention according to established work procedures, identifying the specific occupational risks and their corrective actions.
-Check the general state of media, protections, and insulating material.
-Perform cleanup, border retightening, and ground connection status checking.
-Check the state of electrical insulation, voltage drop, and performance of security and protection elements.
-Check the main variables of the installation and compare the measurements obtained with the technical specifications.
-Act on the out-of-range parameters to fit them in the technical specifications.
-Review and maintain in-state operation the equipment and tools used in maintenance.
-Meet the Take Action report.
-Adopt work and environmental risk prevention measures throughout the process.
Contents
1. Operation of the electrical substation subsystems.
-Substation Planes. Identification of equipment and facilities.
-Operation of circuit breakers, switches and dryers.
-Maniworks of operation of the transformers.
-Maniworks for performance on change of substation topology.
-Operation of the communications systems.
-Operation of the protection and measurement systems.
-Operation of the control systems.
-Maniworks on auxiliary systems:
-Operation of the stream systems.
-Operation of the uninterrupted power systems.
-Operation of auxiliary alternating current systems.
-Security requirements and risk assessment in the operation of electrical substations.
2. First-level preventive maintenance of electrical substations
-Establishment and management of maintenance plans in electrical substations.
-Preventive maintenance program for electrical substations.
-Maintenance of switches and dryers.
-Maintenance of transformers.
-Maintenance of the lightning rod system.
-Maintenance of the land-taking system.
-Procedures and operations for taking action.
-Checking and adjusting the parameters to the watchword values.
-Mechanical operations in the maintenance of facilities and equipment.
-Circuit maintenance electrical operations.
-The usual equipment and tools.
-Buffer, vibration.
-Filters, ventilation.
-Work risk prevention measures in the preventive maintenance of electrical substations.
-Environmental protection in the preventive maintenance of electrical substations.
-Environmental impact.
-Waste Management.
-Cleaning.
3. Documentation and regulations for the operation of electrical substations.
-Implementing regulations and regulations associated with the operation of electrical substations.
-Regulations and regulations for the maintenance of electrical substations.
-Technical documentation of the items on which the operation and maintenance is performed.
-Systems and equipment operation Manuals.
-Systems and equipment maintenance manuals.
-Systems and equipment operation procedures.
-Downloading procedures for equipment and installations of a substation.
-Service backout protocols.
FORMATIVE UNIT 2
Naming: First-level corrective maintenance of electrical substations.
Code: UF1778
Duration: 30 hours
Competition reference: This training unit corresponds to the RP4.
Assessment Capabilities and Criteria
C1: Perform first-level corrective maintenance operations on power substation installations under quality and safety conditions.
CE4.1 Describe the diagnostic techniques of breakdowns that apply in electrical substations and the typology of them.
CE4.2 Describe the procedures for each of the first-level corrective maintenance operations to be performed on the facilities and components of the facilities.
CE4.3 Describe the auxiliary tools and equipment used in the first-level corrective maintenance operations, reasoning the way they are used and maintained.
CE4.4 In a practical, real or simulated case, of an electrical substation characterized by the installation plans and commissioning and maintenance manuals:
-Identify possible breakdowns and their causes.
-Prepare the work area according to the requirements of the performance 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.
-Repair and/or replace broken elements.
-Connect the system.
-Check the correct operation of the system.
-Review and maintain in-state operation the equipment and tools used in maintenance.
-Meet performance report.
-Adopt work and environmental risk prevention measures throughout the process.
Contents
1. First level corrective maintenance operations of electrical substations
-Diagnosis techniques for breakdowns.
-Critical Averies.
-Methods for repairing the various components of the installations.
-Support tools and equipment support for maintenance.
-Description.
-Usage modes.
-Conservation.
-Preparing work areas to perform corrective maintenance activities.
-Disassembly and repair or replacement of electrical and mechanical elements.
-Work risk prevention measures in the corrective maintenance of electrical substations.
-Environmental protection in the corrective maintenance of electrical substations.
2. Procedures for corrective maintenance on equipment and facilities.
-Application rules for corrective maintenance of electrical substations.
-Procedures for corrective maintenance operations on equipment and installations.
-Procedures for electrically isolating equipment and installations.
Methodological guidelines
Distance training:
| Total duration in hours of the training units | Nº 90 | |||||||
|---|---|---|---|---|---|---|---|---|
|
| 90 | 90 | 90 | 90 | 90 |
| 40 | |
| Formunity 2- UF1778. | 30 | 20 |
Sequence:
The formative unit 2 must be imparted once the formative unit 1 is exceeded.
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
FORMATIVE MODULE 4
Naming: SECURITY IN HIGH-VOLTAGE INSTALLATIONS
Code: MF1530_2
Professional qualification level: 2
Associated with the Competition Unit:
UC1530_2: Prevent risks in high-voltage power installations
Duration: 90 hours
Assessment Capabilities and Criteria
C1: Identify the actions directed to safety and health at work in the basic normative framework that regulates them in the sector of high voltage electrical installations assessing the importance of management preventive.
CE1.1 Identify regulations on the prevention of occupational risks and their application in the electrical sector.
CE1.2 Explain the meaning of the concepts of safety and health at work, occupational risk, damages arising from work, prevention, accident of work and occupational disease, explaining the characteristics and elements that define and differentiate each of them.
CE1.3 Citar the general characteristics that define safety techniques and health techniques by specifying the differences between them.
CE1.4 Define what risk prevention management is by justifying preventive measures and protecting workers ' health and safety.
CE1.5 Identify the requirements of the Safety and Health Plan for a work related to high-voltage electrical installations.
CE1.6 Identify public and private agencies and agents related to Safety and Health at Work.
CE1.7 Summarize the functions of the Prevention Services and mention the obligations of the different legally defined decision-makers.
CE1.8 Identify the rights and obligations of workers in security and health, specifying, among others, those related to protection, information, preventive training, consultation and participation.
CE1.9 Relate the channels or means of disclosure of information on job security and risk prevention in the performance of operations in high-voltage electrical installations.
CE1.10 In a practical scenario of activities linked to the promotion of safe behaviors in the development of work in the sector:
-Develop a programme of training and information activities for workers, integrating actions of motivation, changing attitudes and awareness of workers, aimed at promoting safe behaviour in the workplace. development of the tasks.
-Develop disclosure posters and internal rules that contain the essential elements of general and sector prevention, such as information, signage, images and symbology, among others, to promote safe behaviors.
-Design a procedure that contains all the necessary elements for verifying the effectiveness of all scheduled actions.
-Design an information campaign on all the actions envisaged in the field of occupational risk prevention.
C2: Identify and assess occupational and environmental risks in operations related to the execution of works in the presence of electrical voltage.
CE2.1 Identify and assess the specific occupational risks related to jobs called proximity to electrical voltage installations.
CE2.2 Identify and assess specific professional risks related to static electricity and its influence on explosion risks.
CE2.3 Identify and evaluate specific professional risks related to performing work at heights.
CE2.4 Evaluate specific professional risks related to the management of GIS technology components.
CE2.5 Describe, analyze, and evaluate professional risks related to running jobs in confined spaces.
CE2.6 Describe and analyze the most frequent professional risks present in the management of portable tools and equipment used in the presence of electrical voltage.
CE2.7 Identify and evaluate the risks related to the maneuvers to connect or leave without electrical voltage a facility.
CE2.8 Identify and interpret the signalling of drivers, pipes, appliances and equipment of the high voltage installations, specifying the regulatory requirements in this respect.
C3: Define the prevention and safety measures regarding operations and maneuvers to leave without electrical voltage a facility, and for subsequent replenishment of the intended interventions.
CE3.1 Identify the power supplies that supply the installation on which to act.
CE3.2 Describe procedures to suspend the supply of voltage from different sources.
CE3.3 Identify and explain the functioning of the locking mechanisms of the different electrical maneuvering devices.
CE3.4 Describe procedures for verifying the absence of tension in equipment and facilities.
CE3.5 Describe the equipment used to verify the absence of tension in the equipment and facilities.
CE3.6 Analyze methods and procedures for grounding and shorting the different equipment and facilities on which to act.
CE3.7 Describe the requirements of the work zones against the next elements in tension.
CE3.8 Describe the procedures for replenishing the electrical voltage supply from different sources and in different assumptions.
C4: Apply security techniques and preventive measures according to the established protocol, in the execution of works in the presence of electrical voltage.
CE4.1 Describe the preventive measures to be applied to avoid and control the risks of the work in the presence of electrical voltage.
CE4.2 Describe the procedures and methods of action that are recommended to be followed by qualified personnel to perform these jobs.
CE4.3 Describe the characteristics of the screens, covers, pods, tweezers, test tips, insulating pertigas, sidewalks, carpets, work platforms, gloves, goggles, helmets and other accessories, tools and equipment individual protection employees in jobs in the presence of electrical voltage.
CE4.4 Describe the requirements for signalling, lighting and preparation of work areas in the work in the presence of electrical voltage, determining the specific occupational risks and their measures corrective.
CE4.5 Explain the influence of adverse weather conditions on professional risks related to the work in the presence of electrical voltage.
CE4.6 Explain the risks and environmental prevention measures related to discharges of gas into the atmosphere (hexafluoride), with magnetic induction and with the protection of avifauna among others.
CE4.7 In several case studies with interventions related to work in the presence of electrical voltage:
-Planting the organization of the signaling systems in the work.
-Describe and assess the emergency plan, determining emergency situations, phases, communication systems, and personnel and performance entities.
-Develop the documentation and reports that require a certain contingency.
C5: Apply performance techniques in simulated emergency situations and require first aid, in accordance with defined emergency plans, electrical safety regulations, and basic health care protocols.
CE5.1 Describe an emergency plan, analyzing the parts in which it is divided and the functions of the first intervention teams.
CE5.2 Describe emergency devices, equipment, and protective measures of enclosures with high-voltage electrical installations and explain the characteristics of the operation thereof.
CE5.3 To drill down on the most frequent accidents that occur in the work related to the high voltage installations and to relate them to the emergency devices.
CE5.4 Define the actions to be followed by people in the face of accidents or contingencies related to asphyxiation, trapping in ditches, fire, electrocution, describing protective measures, assessment, aid and first aid in each case.
CE5.5 In a scenario of simulated fire extinguishing in a local with electrical equipment:
-Select the appropriate individual protection equipment for the fire type.
-Select and use portable and fixed media with solid, liquid and gaseous agents.
-Make extinction using the method and technique of the equipment used.
CE5.6 In a practical scenario of mock evacuation, in which the plane of a building and the plan of evacuation from emergencies are facilitated:
-Locate special detection, alarm, and light installations.
-Senalize the means of protection and escape paths.
-Propose the procedures for action in relation to the different risk zones in a given emergency situation.
CE5.7 In a scenario of simulated accident simulation exercises:
-Indicate precautions and measures to be taken in case of electrocution, fibrillation, bleeding, burns, fractures, luxations and muscle injuries, positioning of patients and immobilization.
-Apply resuscitation measures, cohibide of bleeds, immobilizations, and bandages.
CE5.8 Compliment with descriptive reports of the emergency situation and damage assessment.
Contents
1. General occupational risks and prevention
-Work and Health:
-Definition and components of health.
-Professional risks.
-Risk factors.
-General risks and their prevention:
-Risks Linked to Security Conditions
-Risks linked to the working environment
-The workload
-Fatigue
-Job dissatisfaction.
-Risk assessment techniques.
-Damage from work:
-Work Accidents
-Professional diseases
-Incidents
-Other pathologies derived from work.
-Elementary risk control systems.
-Health control of workers.
2. Safety and health techniques at work.
-Security Techniques: prevention and protection measures.
-Health Techniques:
-Industrial hygiene.
-Ergonomics.
-Work medicine.
-Psychosocial factors.
3. Safety and health regulations and regulations at work.
-Basic regulatory framework for the prevention of occupational risks.
-Rights and obligations of workers in the field of safety and health at work.
-Employer's obligations in terms of safety and health at work.
-Preventive planning in the enterprise. Safety and Health Plan of a Work.
-Prevention services: typology.
-Public agencies related to Safety and Health at Work.
-Representation of workers.
-Organization of preventive work: Basic routines.
-Documentation: collection, processing, and file.
4. Specific occupational risks and prevention measures in the presence of electrical voltage
-Royal decree on the prevention of electrical risks.
-Identification and risk assessment in high voltage.
-Risks of mechanical origin.
-Electric-type hazards.
-Fires, deflagrations and detonations. Triangle of fire. Classes of fire.
-Fire and explosion hazards. Prevention, protection and extinction.
-Secure Maniworks to leave an installation without electrical voltage.
-Secure Maniworks in Voltage Reorder.
-High voltage jobs. Work in proximity. Procedures and methods of work.
-Jobs in height.
-Jobs in confined spaces.
-Maniworks, measurements, tests and verifications. Replacement of fuses.
-Safety plans.
-Environmental impact. Discharges into the environment, pollution, greenhouse effect.
-Norms on fluorinated greenhouse gases
-Electrical, safety and environmental regulations. The five golden rules.
-Managing prevention:
-Types of jobs.
-Authorization of jobs.
-Downloading procedures.
-Human teams of work and functions: technical officer, chief installation, discharge agent, security coordinator, work supervisor, head of work, preventive resource.
5. Safety equipment in work in the presence of electrical voltage
-Individual and collective protective equipment.
-Auxiliary security teams. Fire detection and extinguishing systems.
-Signage systems.
-Inspection and maintenance of equipment.
6. Emergencies in jobs in the presence of electrical voltage
-Emergency Plan.
-Accidents. Protection of the crashed. Assessment of the accident. Request for help.
-First aid: basic criteria for action. Coordination of the intervention.
-Evacuation plans.
Methodological guidelines
Distance training:
| Formative Module | Total duration in hours of the training module | Number of hours 90 | 90 | 90 | 90 | 90 | 90 Centro_table_body "> 50 |
|---|
Access criteria for students
They shall be those established in Article 4 of the Royal Decree governing the certificate of professionalism of the professional family to which this Annex accompanies.
NON-WORK PROFESSIONAL PRACTICE MODULE FOR MANAGING THE MAINTENANCE OF ELECTRICAL SUBSTATIONS
Code: MP0377
Duration: 80 hours
Assessment Capabilities and Criteria
C1: Analyze and interpret the drawings and technical documentation of an electrical substation.
CE1.1 Identify the various components of the installation.
CE1.2 Specify the characteristics of the elements that make up the substation.
CE1.3 Reasoning the operation of the substation.
C2: Develop provisioning and assembly plans for an electrical substation from the project, regulations, and related rules.
CE2.1 Interpret the technical documentation of the various elements that make up the substation.
CE2.2 Design the provisioning of assembly security systems and equipment
CE2.3 Develop and interpret the provisioning plan
CE2.4 Determine the mount sequence by flirty.
CE2.5 Define the assembly techniques.
CE2.6 Develop and interpret the electrical substation assembly plan.
CE2.7 Determine the most relevant aspects in the prevention of occupational and environmental risks by relating them to the procurement and assembly processes of an electrical substation.
CE2.8 Determine the tests, settings, and operations to be performed on the components of the installation for commissioning.
CE2.9 Meet the documentation associated with the electrical substation commissioning processes.
C3: Schedule the maintenance of electrical substations.
CE3.1 Determine the maintenance operations to perform.
CE3.2 Set the sequence of the different unmount and mount tasks by describing the operations to be performed related to security.
CE3.3 Determine the human and material resources required to perform maintenance interventions.
CE3.4 Develop an annual preventive maintenance plan.
C4: Perform local operation maneuvers on power substations.
CE4.1 Collaborate with a technician in performing local operation maneuvers from the substation control center.
CE4.2 Interpret local operation maneuvers and tell the technician the process to follow to perform these maneuvers.
CE4.3 Describe the occupational risk prevention measures to be taken for the performance of the maneuvers.
CE4.4 Perform local operation maneuvers from the substation control center with the supervision of the technician.
CE4.5 Perform visual inspection of the local operation maneuvers performed.
CE4.5 Fill in the work parts for each of the local operation maneuvers performed.
CE4.6 Repeat the same process for local operation maneuvers from a booth of an electrical substation.
CE4.7 Repeat the same process for local operation maneuvers from the physical arrangement of the device itself in the electrical substation.
C5: Participate in the unloading of a computer from an electrical substation.
CE5.1 Describe the discharge procedure to be performed.
CE5.2 Identify the documentation to be completed throughout the process.
CE5.3 Assist in preparing the work zone.
CE5.4 Collaborate on the application of the five gold rules.
CE5.5 Participate in local operations to perform on the elements of the substation.
CE5.6 Meet the documentation that the process generates.
CE6.1 Behave responsibly in both human relationships and the jobs to be performed.
CE6.2 Respect the procedures and rules of the work center.
CE6.3 Diligently undertake tasks according to the instructions received, trying to bring them into line with the company's work rate.
CE6.4 Integrate into the production processes of the job center.
CE6.5 Use the established communication channels.
CE6.6 To respect at all times the measures of risk prevention, occupational health and environmental protection.
Contents
1. Operation of a substation.
-Physical interpretation of the unifilar schema of a substation.
-Identification and physical location of substation equipment and facilities.
-Operating under normal conditions of a substation.
2. Supply plans for electrical substations.
-Need to supply equipment and materials.
-Machinery to be used for equipment and material displacement.
-Localization of provisioning zones.
3. Maintenance of electrical substations.
-Visual inspection.
-Regular tests on equipment.
-Periodic checks on equipment.
-Cleaning.
-Replacing oil in equipment.
-Disposal of waste.
4. Local operation.
-Teams on which to perform local operation maneuvers.
-Local operation maneuvers types.
-Maniworks from the control center.
-Maniworks from installation booths.
-Maniworks from the team command.
5. Discard procedure.
-Need to download equipment to ensure job security.
-A download request process.
-Decline elaboration.
-Authorizations to perform a download.
-Application of the five gold rules.
-Post-job checks.
-Puesta on team service.
6. Integration and communication in the workplace
-Responsible behavior in the job center.
-Respect to the procedures and rules of the work center.
-Interpreting and diligently performing the instructions received.
-Recognition of the organization's production process.
-Using the communication channels set in the job center.
-Adequation to the company's work rate.
-Tracking the regulations for risk prevention, occupational health and environmental protection.
IV. PRESCRIPTIONS OF TRAINERS
|
Modules | Required Accreditation | Professional experience required in the scope of the competency | |
|---|---|---|---|
|
With accreditation | No accreditation | ||
|
MF1531_3 Managing and monitoring power substations assembly |
• Bachelor, Engineer, Architect or corresponding degree title or other equivalent titles. • Diplomat, Technical Engineer, Technical Architect or degree degree corresponding or other equivalent titles. | 2 years | - |
|
MF1532_3 Management and monitoring of the operation and maintenance of electrical substations | • Bachelor, Engineer, Architect or corresponding degree of degree or other equivalent qualifications. • Diplomacy, Technical Engineer, Technical Architect or corresponding degree of degree or other titles equivalents. | 2 years | - |
|
MF1533_2 Local operation and first-level maintenance on power substations | • Licensed, engineer, architect, or title corresponding degree or other equivalent titles. • Diplomate, technical engineer or technical architect or corresponding degree of degree or other equivalent titles. • Technician The professional family of energy and water. • Professional level 3 professional energy and energy professional family energy and water professional family. | 1 year | 3 years |
|
MF1530_2 High-voltage facility security | • Higher Technician in Professional Risk Prevention. | 2 years | - |
V. MINIMUM SPACES, FACILITIES AND EQUIPMENT REQUIREMENTS
| Surface m2 15 pupils | 25 | ||
|---|---|---|---|
|
45 | 45 | 45 | |
| 150 | 150 |
| M1 | M2 | M3 | ||||
|---|---|---|---|---|---|---|
|
| X | X |
X | X | ||
|
| X | X | X | X | X Center_table_body "> X |
| Equipment | |
|---|---|
|
Classroom. | -Audio-visual equipment. -network-installed PCs, projection canon, and internet. -Specialty-specific software. -Pizars. -Rotafolos. -Classroom Material. -Table and chair for trainer. -Messes and chairs for students |
|
Workshop practices. | -Command of a power transformer. -Command of a high voltage switch. -Command of a high sectionator voltage. -Low voltage electrical box. < Table_table_izq">-Glass insulators and porcelain for exterior.-Resin and polymeric insulators for interior. -Blade and gag contacts.
-Contact Bornas. -Chassis for High-Voltage Equipment. -Measurement Equipment (Amperimeters, voltmeters, vatimetros). -Connection terminals and substation hardware. -High voltage steel cable. -Pertigas and pertigas accessories. -Insulating Banyth_body. -Insulating Alfname. -Insulating vinyl Tela with insulating clamp and attachment magnet. -Detector Distance voltage. -Discriminator for low voltage. -Contact Detector for substations. -Rope placement Pinza. -Rope penders for grounding equipment. -Packs for grounding. -grounding cable with terminals. -Ground-to-ground. -Protective equipment individual. -Senalization and delimitation of work zones. -Specific tools for mounting and maintaining electrical substations |
It should not be interpreted that the various identified learning spaces should necessarily be differentiated by closure.
The facilities and equipment must comply with the relevant industrial and sanitary sanitary regulations and respond to the universal accessibility and safety measures of the participants.
The number of units to be provided with the tools, machines and tools specified in the training spaces will be sufficient for a minimum of 15 students and must be increased, in their case, to attend to the top number.
In the event that the training is addressed to persons with disabilities, the adaptations and reasonable adjustments will be made to ensure their participation in equal conditions.
