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Order Ecd/1524/2015, On 21 July, Which Establishes The Curriculum Of The Formative Cycle Of Medium Corresponding To The Title Of Technician Degree In Maintenance And Control Of The Machinery Of Ships And Craft.

Original Language Title: Orden ECD/1524/2015, de 21 de julio, por la que se establece el currículo del ciclo formativo de grado medio correspondiente al título de Técnico en Mantenimiento y Control de la Maquinaria de Buques y Embarcaciones.

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TEXT

Royal Decree 1072/2012 of 13 July, establishing the title of Technician in Maintenance and Control of the Machinery of Ships and Embarks and their minimum teachings, acts in accordance with Royal Decree 1147/2011, (a) of 29 July, establishing the general system of vocational training of the educational system, and defining in Article 9 the structure of vocational training qualifications and courses of specialisation, on the basis of the National catalogue of vocational qualifications, the guidelines laid down by the European Union and others aspects of social interest and implements the aforementioned title of Technician in Maintenance and Control of the Machinery of Ships and Embarks.

Organic Law 2/2006, of 3 May, of Education, provides that educational administrations will develop the curriculum of vocational training diplomas, starting with the basic curriculum and under the conditions laid down in the Article 6 bis.4 The teaching centres shall develop and complete, where appropriate and as established by the educational authorities, the curriculum of the different stages and cycles in use of their autonomy as set out in Chapter II of Title V of the said Directive. Organic Law.

Royal Decree 1072/2012 of 13 July, in its Single Derogation Provision, repeals Royal Decree 748/94 of 22 April 1994 establishing the curriculum for the medium-grade training cycle corresponding to the Technical in Operation, Control and Maintenance of Machines and Facilities of the Buque, established under the Organic Law 1/1990, of October 3, of General Management of the Educational System.

In accordance with the above and once the Royal Decree 1072/2012, of July 13, has set the professional profile of the title of Technician in Maintenance and Control of the Machinery of Ships and Ships, the basic aspects the curriculum and other aspects of the academic management which ensure a common formation and guarantee the validity of the titles throughout the national territory, it is now necessary to determine, in the field of management of the Ministry of Education, Culture and Sport, the extension and contextualization of the contents of the professional modules included in this title, respecting the professional profile of the title.

The needs of an integrated labour market in the European Union require that vocational training courses pay particular attention to the languages of the Member States, incorporating them into their training offer. In this sense, this formative cycle incorporates in the curriculum training in the English language, in response to the provisions of Royal Decree 1147/2011, of July 29.

addition, the curriculum of this training cycle is established from the respect of the pedagogical, organizational and management autonomy of the centers that provide professional training, promoting these the work in the team of the teachers and the development of training, research and innovation plans in their teaching field and actions to promote the continuous improvement of training processes.

On the other hand, vocational training centres will develop the curriculum established in this order, taking into account the characteristics of pupils, with particular attention to the needs of people with disability.

Finally, it should be specified that the curriculum of this formative cycle integrates the scientific, technological and organizational aspects of the teachings established to achieve that the students acquire an overall view of the processes (i) production of the technical profile of the Technical Service in Maintenance and Control of the Machinery of Ships and Embarks.

In the process of drafting this order, the State School Board has issued a report.

For all of the above, in its virtue, I have:

CHAPTER I

General provisions

Article 1. Object.

This order is intended to determine, from the basic curriculum established in Royal Decree 1072/2012 of 13 July, establishing the title of Technician in Maintenance and Control of the Machinery of Ships and Vessels and their minimum teachings, the curriculum of the medium-grade training cycle, corresponding to the said title.

Article 2. Scope.

The curriculum established in this order will be applied in the territorial area of management of the Ministry of Education, Culture and Sport.

CHAPTER II

Curriculum

Article 3. Curriculum.

1. The curriculum for vocational training of the educational system corresponding to the title of Technician in Maintenance and Control of the Machinery of Ships and Embarks, established in Royal Decree 1072/2012, of July 13, is determined in the terms set in this order.

2. The professional profile of the curriculum, which is expressed by the general competence, the professional, personal and social skills, and the qualifications and the competence units of the National Catalogue of Professional Qualifications, is the included in the title of Technician in Maintenance and Control of the Machinery of Ships and Embarks, referred to in the previous section.

3. The general objectives of the training cycle curriculum, the objectives of the professional modules expressed in terms of learning outcomes and their evaluation criteria are those included in the title of Technician in Maintenance and Control of the Machinery of Ships and Vessels referred to in paragraph 1 of this Article.

4. The contents of the professional modules that make up this curriculum, adapted to the socio-economic reality as well as to the perspectives of economic and social development of the environment, are those set out in Annex I of this order.

Article 4. Adaptation to the socio-productive environment.

1. The curriculum of the training cycle regulated in this order is established taking into account the socio-economic reality and the geographical, socio-productive and labour characteristics of the environment for the implementation of the title.

2. Vocational training centres shall have the necessary educational, organisational and economic management autonomy for the development of the teaching and their adaptation to the specific characteristics of the socio-economic, cultural and professional.

3. The centres authorised to provide this training cycle will concretize and develop the organizational and curricular measures that are most appropriate to the characteristics of their students and their productive environment, in a flexible way and in the use of their Pedagogical autonomy, in the general framework of the educational project, in the terms established by the Organic Law 2/2006, of Education.

4. The curriculum of the training cycle regulated in this order will be developed in the didactic programs or curricular development, strengthening or creating the culture of prevention of occupational risks in the spaces where the different modules are delivered professionals, as well as promoting a culture of environmental respect, excellence in work, compliance with quality standards, creativity, innovation, gender equality and respect for equal opportunities, the " design for all people " and universal accessibility, especially in relation to people with disabilities.

Article 5. Adaptation to the educational environment.

1. The vocational training centres managed by the Ministry of Education, Culture and Sport will develop the curriculum established in this order, taking into account the characteristics of pupils and the environment, particularly in the light of persons with disabilities, in conditions of accessibility and with the necessary support resources to ensure that this student can cure these teachings under the same conditions as the rest.

2. Also, the lessons of this cycle will be taught with a flexible and open methodology, based on self-learning and adapted to the conditions, abilities and personal needs of the students, in order to allow the reconciliation of the learning with other activities and responsibilities.

Article 6. Duration and sequencing of professional modules.

1. The total duration of the lessons for this training cycle, including the vocational training module in the workplace, is 2000 hours.

2. The professional modules of this training cycle, when offered under face-to-face arrangements, will be organised in two academic courses and will be in line with the weekly hourly sequencing and distribution set out in Annex II of this order.

3. The first academic year will be fully developed in the educational center. In order to be able to pursue the second course, it will be necessary to have completed the professional modules which, as a whole, are at least 80% of the hours of the first course.

4. The right of registration of those who have passed any professional module in another Autonomous Community shall be guaranteed in the terms laid down in Article 48.3 of Royal Decree 1147/2011 of 29 July 2011 establishing the general vocational training of the educational system.

5. In general, during the third quarter of the second year, and once the positive evaluation has been achieved in all the professional modules carried out in the educational centre, the vocational training module will be developed in job.

6. Exceptionally, and in order to facilitate the adaptation of the number of persons registered to the availability of training positions in enterprises, approximately half of the second-year students will be able to develop this vocational training module. Training in workplaces during the second trimester of the second year, provided they have positively overcome all the professional modules of the first academic year.

7. Without prejudice to the foregoing and as a result of the temporality of certain economic activities which may prevent the development of the vocational training module in the workplace from being in conformity with the above assumptions, the latter may be organise in other periods coinciding with the development of the economic activity of the professional profile of the title.

8. In any case, the evaluation of the vocational training module in the workplace will be conditional on the positive evaluation of the rest of the professional modules of the training cycle.

CHAPTER III

Teachers, spaces and equipment

Article 7. Qualifications and accreditation of teacher requirements.

1. The specialties of teachers with teaching assignment in the professional modules which constitute the teachings established for the title referred to in Article 1 of this order, as well as the equivalent qualifications for the purposes of teaching, are the entries respectively in Annexes III A and III B to Royal Decree 1072/2012 of 13 July 2012.

2. In order to ensure compliance with Article 12.6 of Royal Decree 1072/2012 of 13 July 2012, for the delivery of the professional modules that make up the company, in private or public ownership centers of other administrations other than education, it must be established that all the requirements laid down in that Article are met, with the following documentation:

(a) Photocopy of the official academic title required, in accordance with the qualifications included in Annex III C of Royal Decree 1072/2012 of 13 July. Where the degree presented is linked to the professional module which is to be provided, it shall be deemed to include in itself the objectives of that module. Otherwise, in addition to the titration, the documents referred to in subparagraph (b) or (c) shall be provided.

(b) In the event that it is necessary to justify that the teachings leading to the titration provided encompass the objectives of the professional modules that are intended to be taught:

-Personal academic certification of studies performed, original or photocopy, issued by an official center, in which the teachings are recorded detailing the subjects.

-Programs of the studies provided and submitted by the person concerned, original or photocopy of the studies, sealed by the University or the corresponding official or authorized teaching center.

c) Where it is necessary to justify by means of the work experience which, at least for three years, has developed its activity in the sector related to the family, its duration shall be credited by the appropriate supporting official document, which shall be added to:

-Certification of the employer or employer in which the activity developed by the person concerned is specifically recorded. This activity must be implicitly related to the learning outcomes of the professional module that is intended to be delivered.

-In the case of those who are self-employed, a statement of the person concerned with the most representative activities related to the learning outcomes.

Article 8. Spaces and equipment.

The spaces and facilities to be assembled by the vocational training centres, in order to enable the development of teaching activities, are those set out in Annex III of this order and must comply with the provisions of the Article 11 of Royal Decree 1072/2012 of 13 July 2012, as well as the rules on equal opportunities, "design for all persons" and universal accessibility, prevention of occupational risks and safety and health at the workplace.

CHAPTER IV

Other offerings and mode of these teachings

Article 9. Distance offering.

1. Professional modules offered at a distance, when required by their characteristics, will ensure that students achieve all the objectives expressed in learning outcomes, through face-to-face activities.

2. The Provincial Directorates and the Board of Education shall take the necessary measures and shall give the precise instructions to the centres which are authorized to provide this training cycle under pressure for implementation and operation of the offer from the same distance.

3. Centres authorised to provide vocational training lessons at a distance shall have appropriate curriculum materials which will be adapted to the provisions of the fourth additional provision of the Organic Law 2/2006 of 3 May.

Article 10. Combined offering.

In order to respond to personal needs and interests and to provide the possibility to reconcile training with work activity, with other activities or situations, the offer of these teachings for people adults and young people in special circumstances may be combined between face-to-face and distance learning systems at the same time, provided that the same modules are not cured in both modes at the same time.

Article 11. Offer for adults.

1. The professional modules of this training cycle associated with the competence of the National Catalogue of Professional Qualifications may be the subject of a modular offer for adults.

2. This training will be developed with an open and flexible methodology, adapted to the conditions, capabilities and personal needs that enable them to reconcile learning with other activities and responsibilities, in compliance with the Chapter I of Title IV of Royal Decree 1147/2011 of 29 July 2011. In addition, such training shall be capitalizable in order to obtain a professional training certificate, in order to obtain evidence of the established access requirements.

3. In order to reconcile learning with other activities and responsibilities, the Provincial Directorates and the Board of Education may establish specific measures to comply with the provisions of Article 41 of Royal Decree 1147/2011, of 29 July, and enable a face-to-face and remote offering simultaneously.

4. In order to promote training throughout life, the Directorate-General for Vocational Training of the Ministry of Education, Culture and Sport may authorise the Provincial Directorates and the Education Ministry to give the training, in the centres of their competence, of professional modules organised in training units of shorter duration. In this case, each learning result, with its evaluation criteria and its corresponding block of contents, will be the minimum and indivisible unit of partition.

Single additional disposition. Authorization to impart these teachings.

The Provincial Directorates and the Board of Education will deal with the Directorate-General for Vocational Training with the authorization to provide the teaching of this training cycle, in full or in part, in In-person and distance-based arrangements, of the institutions that request it and comply with the requirements required under the current legislation.

Single transient arrangement. Replacement of titles related to these teachings.

1. The students who, at the end of the school year 2014-2015, meet the conditions required to attend the second course of the title of Technician in Operation, Control and Maintenance of Machines and Facilities of the Buque, established by the Royal Decree 725/1994 of 22 April 1994 under the Organic Law 1/1990 of 3 October of General Management of the Educational System and which has not exceeded one of the professional modules of the first course of the said title, will have two calls in each of the two successive years to be able to overcome these professional modules. After that period, in the 2017-2018 school year, the convalidations will apply to the superimposed modules, as set out in Article 14 of Royal Decree 1072/2012 of 13 July, governed by the Organic Law 2/2006, of 3 May, of Education.

2. The students who, at the end of the school year 2014-2015 do not meet the conditions required to attend the second course of the title of Technician in Operation, Control and Maintenance of Machines and Facilities of the Buque, established by the Royal Decree 725/1994, of 22 April, under the Organic Law 1/1990, of 3 October, of General Ordination of the Educational System, the convalidations established in Article 14 of Royal Decree 1072/2012, of July 13, regulated by the Organic Law 2/2006, of 3 May, of Education.

3. The students who, at the end of the school year 2015 -2016, do not meet the conditions required to obtain the title of Technician in Operation, Control and Maintenance of Machines and Facilities of the Buque, established by Royal Decree 725/1994, of 22 In April, under the Organic Law 1/1990, of 3 October, of General Management of the Educational System, it will have two calls in each of the two successive years in order to be able to overcome these professional modules, with the exception of the module Training in the workplace for which an additional school year will be available. The students who have passed that period have not obtained the title will be applied to the convalidations, for the modules surpassed, established in article 14 of the Royal Decree 1072/2012, of July 13, regulated by the Law of the Organic Law 2/2006, of 3 May.

Final disposition first. Application of the order.

The Directorate-General for Vocational Training, in the field of its powers, is authorised to take the measures and to issue the necessary instructions for the implementation of the provisions of this order.

Final disposition second. Implementation of these teachings.

1. In the course of 2015-2016, the first course of the training cycle referred to in Article 1 of this order will be implemented and the lessons of the first course covered by the Organic Law 1/1990 of 3 October, of Ordination, will cease to be taught. General of the Educational System, corresponding to Royal Decree 725/1994, of 22 April, establishing the title of Technical in Operation, Control and Maintenance of Machines and Facilities of the Buque.

2. In the course of 2016-2017 the second course of the training cycle referred to in Article 1 of this order will be implemented and the second course lessons covered by the Organic Law 1/1990 of 3 October will be stopped General Management of the Educational System, corresponding to Royal Decree 725/1994 of 22 April, establishing the title of Technical in Operation, Control and Maintenance of Machines and Facilities of the Buque.

Final disposition third. Entry into force.

This order will take effect the day following your publication in the "Official State Bulletin".

Madrid, 21 July 2015.-The Minister of Education, Culture and Sport, Iñigo Méndez de Vigo and Mr Mondez.

ANNEX I

Professional Modules

1. Professional Module: Maintenance of the propellant plant and auxiliary machinery.

Code: 1172

Contents:

a) Pulled plant and auxiliary machinery in motion:

Interpretation of drawings and technical documentation of equipment and auxiliary circuits. Symbology. Identification of components on planes.

Storage, handling and treatment of fuels, water and oils. Fuel circuit: components. Liquid and gaseous fuels: classification and characteristics. Precautions during handling of the fuel. Health effects. Regulations related to the handling and storage of fuel. Prevention and control of oil pollution. Lubricating oils: classification and characteristics. Additives. Lubricating oil circuits: components. Objectives of lubrication. Lubricating fats. Applications. Analysis and treatment of water for engines and boilers.

Checking the purification and clarification systems of fuels and oils. Methods used for the cleaning and purification of fuel and oil. Formation and operation of a centrifugal separator. Determination of the disk of gravity and the working temperature. Fuel and lubricating oil filters: types.

Verification of compressed air systems. Operation of an air compressor in several stages. Use of compressed air on board: start-up, control and services. Treatment of compressed air. Air storage. Regulations. Distribution circuits: safety valves, purging valves, pressure regulating valves, fast plugs, hoses.

A sanitary water system. Systems of production by reverse osmosis and evaporation. Components and operation. Storage and treatment of water generated. Sub-systems for the distribution of cold fresh water and hot fresh water. Hot water production.

Checking the availability of the axis line. Fixed-blade propellers. Variable pass propeller system. Mechanism for actuating the orientable blades. Forces and moments induced by the motion of the propeller. Influence of the number of blades. Parts and elements of the shaft. Elements of the line of axles: arbothantes. Support and thrust chumpavements. Horns. Bulkhead presses. Line-of-axis add-ons. Virator. Torsiometer. Brake. Reductive: inverter reducer, reductive-clutch. Non-line propulsion of conventional axles: azimuthal, cycloidal and water jet propellants.

Check the governance system. The conventional rudder. Forces on the shovel. Turn, support and drive elements. The servotimon. The government servomotor and its components. Local and emergency government. Bridge and machine room communications. Electrohydraulic governance servomotors.

Checking ship systems. Achique system. Components. Spaces of the vessel that must be achicados. Wells and boxes of mud. Ballast system. Components. Required ballast and distribution. Ventilation and air extraction system in the engine room. Components. Use. Separation of oilseeds. Waste water treatment. Treatment of solid waste. Prevention of pollution. Regulations. Garbage compactor. Waste incinerator. Aeration or respite system, rewind and probe on deck.

Circuit Checking. Verification of circuits on planes and on real equipment. Component identification. Aspiration baskets. Imbornals and grilles. Pipes: materials and accessories (frisas, linings, filters, electrogens, among others). Flexible pipes. Whips. Measuring instruments: types and characteristics. Adjustment and checking. Valves: classification and main components. Operation of the pump in a circuit. Suction and discharge pressures. Priming of a centrifugal pump. Ejectors.

Organization of the jobs. Leadership of working groups. Standardised orders. Team work criteria.

b) Start-up operations, stop and control of thermal engines and their auxiliary systems:

Alternative internal combustion engines. Rating: two-and four-stroke petrol and diesel engines. Gas engines. Operation. Comparison of the different systems of work. Constitution of internal combustion engines. Functions of each of the engine parts. Engine accessories: carter safeties, crankcase fog detector, injection circuit leak control, expansion tanks and gravity tanks, among others.

Fuel power systems in diesel, gasoline, and LPG engines. Gas measurement. Conditions, equipment and adjustment of parameters. Systems with carburetor: principles and types of carburetors. Systems with gasoline injection. Electronic injection. Diesel injection systems: rotary pumps, online and with electronic control. Injectors: types and operation.

The air load circuit. Naturally aspirated engines and supercharged engines. Circuit elements. Overpowering: Turbocompressors. Load air cooler.

Boot and maneuver systems. Electric start. Components and operation. Pneumatic start. Components and operation. Change of gear. Methods. The speed regulator. Operation and types.

Power on systems. General description. Principles of operation. Types of fires. Electronic power-on.

Combustion. Stoichiometric ratio and excess air. Lambda ratio. Exhaust gas analysis. Exhaust system: components. Counterpressures. Cogeneration. Anti-pollution systems.

lubrication system. Description of the system and operation. Circuit elements. Engine parts subject to lubrication.

Cooling system. Cooling circuit with fresh water. Systems with high and low temperature circuit. Description of the system and operation. Parts of the engine in need of cooling. Harnessing the heat dissipated.

Engine safeties. Indication of meters. Alarms. Emergency stops. By overspeed, by low oil pressure.

Start and stop operations. Interpretation of the technical specifications. Phase characterization: heating, starting, post-start, stop and cooling. Parameters to be checked.

c) Operation of steam and gas turbine propellant plants:

Steam plants on board. External combustion systems: principles of operation. General description of a steam propellant plant. Main components and their mission. Steam generators. Boiler installations. Classification of boilers. Steam circuits.

Operation and maintenance of steam boilers. Start/stop of a steam boiler. Treatment of the water supply of boilers.

Steam Turbines. Principles of operation. Elements of the turbines. Classification. Turbo-alternators and turbo-pumps.

Overview of a propellant plant with gas turbines. Core components.

Operating principles of gas turbines.

Description of the basic components of the gas turbine. Main components and their mission.

Associated gas turbine systems. Mission of each system.

A gas turbine startup sequence. Parameter control.

Gas turbine procedures. Start and stop procedures. Washing procedure. Emergency cooling procedure. Procedure for putting into service/removal of the anti-ice system.

Fire procedures in the turbine. Inside the wrap after the stop. Class "B" fire in the module.

d) Maintenance of the propellant plant and auxiliary machinery:

Performing maintenance operations. Preventive maintenance operations. Scheduled maintenance plan. Sampling of lubricants for analysis. Interpretation of analysis of oils. Thermography techniques. Vibration analysis.

Location, disassembly, and assembly operations of equipment parts of the propellant/auxiliary machinery plant. Use of drawings and technical documentation. Performance parameters: Equipment and means of measurement, control and diagnosis. Interpretation of parameters. Disassembly and assembly. Processes and techniques. Use of special tools and tools.

Dynamometric Tightening. Tuning and tuning.

Element checking procedures. Management of measurement and verification equipment. Calibrations and control of tolerances.

Emergency operation procedures in case of equipment failures or breakdowns.

Installation and Maintenance of Trasiego Systems and Purification of Fuel and Boat Oil. Maintenance and installation processes. Diagnosis of the operating parameters of the systems.

Maintenance and installation of equipment for the ship's water supply and driving systems. Maintenance and installation processes. Diagnosis of the operating parameters of the systems.

Functional and reliable tests.

Conditions to be observed for good communication. Use of technical vocabulary.

Elaboration of breakdowns reports.

e) Maintenance of internal combustion engines:

Dismantling and mounting an alternate train. Verification of the alternative train. Replacement of components in bad status.

Dismantling and mounting the engine boot system. Verification of the boot system.

Verifying and locating breakdowns in over-power systems.

Dismantling and mounting a butt. Verification of the status of the butt. Valve adjustment.

Valve setting.

Dismantling and mounting of injectors. Cleaning of the injectors. Change of nozzles. Injection timbrate.

Heat of the injection pumps in the engine. Measurement of static and dynamic progress.

Verification, disassembly, and mounting of a vessel's crankshaft.

Verification, disassembly, and assembly operations of distribution system elements on a vessel.

Dismantling, mounting, and adjusting the ignition system of a gasoline engine.

f) Maintenance of propulsion systems for auxiliary vessels with outboard, intra-and water-jet engines:

Identification of vehicle propulsion system components with outboard, intra-and water jet engines. Fuel system. Carburettor. Fuel pump. Oil-fuel mixture. Cooling system. Water pump. Thermostatic. Ignition system. Batteries. Spark plugs. Injection system. Electronic injection. Boot systems. Electric. Manual. Clutch and reversing system. Queues in Z and tails in S. Hydraulic fluid. Propellers.

Maintenance of the water jet propulsion system. Motor-propellant transmission shaft line. Unit pump unit. Servo of the unit. Hydraulic and lubrication system. Control system. Safeties. Test protocols and maintenance.

Start-up operations, stop and emergency stop. Pre-commissioning checks. Start and stop of the system. Emergency stop procedure. Operations to be performed after the stop.

Running maintenance operations. Interpretation of plans, schemes and technical documentation. Maintenance planning. Assembly and disassembly techniques.

Dismounting and mounting of the engine transmission system in a water jet system. Attach the shaft to the horn. Attach the shaft to the engine.

Dismantling and mounting of the hydraulic system in a water jet system. Adjustments of the hydraulic cylinders of the servo of the unit. Hydraulic pump adjustment.

Identification of failures or malfunction. Interpretation of plans, schemes and technical documentation. Measuring tools and apparatus. Disassembly, repair and assembly techniques. Electrical system breakdowns (magneto, coil, cables and spark plug). Carburettor breakdowns (dirt on gum, float, contaminated fuel, air and fuel filter obstruction). Compression losses due to wear of shirts, rings and pistons. Pinion and crown wear of the tail. Breakdowns in the clutch. Standards for the prevention of occupational and environmental risks.

Previous maintenance to extended stops. Engine hibernation.

Verification of maintenance or repairs.

Performing technical reports.

g) Prevention of occupational and environmental risks in the maintenance work of the propellant plant and auxiliary machinery:

Risk and hazard assessment.

Identification of hazards and risk assessment in machine facilities.

Prevention and response measures to contingencies.

Current regulations.

Precautionary measures during operation and maintenance work. Safety standards for equipment and systems. Conditions for good communication. Works in confined spaces. Risks for jobs in height.

Means of individual and collective protection. Personal protective equipment (PPE). Safety signage. Job authorizations. Teamwork.

Preparing the work zone. Means employed in the protection of areas adjacent to the work area, which may be damaged. Physical isolation of the work area. Order, care and cleaning.

Hygiene at work. Noise limits. Lighting and ventilation conditions. Temperature and humidity of the different locales/spaces. Periods of activity/rest. Health consequences.

Handling of hazardous waste and products. Waste collection and disposal system. Storage and handling of dangerous products. Regulations in this respect.

Accident investigation. Search for the causes. Measures for their correction. Reporting.

2. Professional module: machining and welding procedures on ships and boats.

Code: 1173.

Contents:

a) Elaboration and repair of parts with machine tool:

Identification of materials and commercial forms of supply.

Characteristics of different metals and alloys.

Interpretation of drawings, sketches, or pieces identifying measures, cotes, and surface finishes.

Quality parameters of different machining processes: Handling and use of hand tools. Handling of all types of keys, screwdrivers, chisels, buriles, pliers, among others. Handling of rivets, scorework, rovers, shears, among others. Handling of the lime and the hand saw. Tuning operations.

Handling and use of portable electrical and pneumatic tools: Drilling and countertop operations with portable drill. Manual threaded operations, reaming and milling with a portable tool. Drawing and punching of parts for machining.

Sharpening of tools and tools in the grinding machine.

drilling operations. Instructions for operating and handling the machine with its safety measures. Attachment of parts and choice of the appropriate cutting speed. Sharpening of useful and execution of large diameter drills.

Turning operations: Explanation of the most important parts; kinematic chain and security measures. Basic operations: centrepiece, cylindrical, endorsed and drilled. Cylinder capacity and drilling in steps to a predetermined measure. Operation of tronked with aluminium material. Single threaded operation with aluminium material. Other simple operations: cones turning, grinding, sanding, polishing and grinding.

milling operations. Explanation of the most important parts; kinematic chain and safety measures. Milling operations on free surfaces. Milling of flat surfaces in a cylinder and milling of a chaveteo. Special applications of the milling machine, use of the splitter plate in machining operations.

b) Elaboration and repair of parts by electric arc welding with coated electrode and with protective gas (MIG, MAG and TIG):

Welding techniques and their applications.

Quality parameters in welding processes.

Electric Arc Welding by coated electrode. Determination of the appropriate materials to apply this type of welding. Types of electrodes used. Different kinds of machines depending on the type of electrical current used.

Preparing and securing the parts to be welded. Techniques for fastening and preparing the parts. Voltages generated in welded joints. Methods for removing generated tensions.

Adjusting the machine's operating parameters and choosing the appropriate electrode. Adjustment of the power supply voltage. Adjustment of the intensity in the arc. Polarity of the electrode. Electrode diameter. Preliminary tests.

Different shapes and conditions of running the weld. Butt welding with or without ceramic coating. Horizontal welding in a straight line and at an angle. Welds in ascending vertical and ascending angle. Welds on cornisa and on roof. Solders in pipe joint with and without overlap. Welds and parched in 2 mm sheet metal solders in special materials: cast iron and stainless steel.

Manufacture of cubic or cylindrical containers by electric welding by coated electrode. Electrode welding in thin sheets. Low pressure tightness tests. Pore control and repair. High-strength welds in thick sheets and transmission shafts. Preparation of the welding channel. Determination of the number of cords Execution process to eliminate the tensions to the maximum. Final material stabilization process.

Soldments in inert atmosphere. Different techniques. MIG-type welding with continuous yarn material input into steel. MIG-type welding with input of continuous yarn material in aluminium. TIG-type welding with rod or material input in stainless steel or brass.

Adjustment of the operating parameters of the MIG, MAG and TIG welding equipment. Power voltage. Current intensity. Gas flow rate. Rate of contribution of the yarn. Manual or automatic mode. Execution of welds in inert atmosphere. Application in the electrical welding procedures by coated electrode.

c) Elaboration and preparation of parts by oxicylene and oxycote welding:

Oxyacetylenic welding procedure.

Effects of the flame on the material to be welded. Call types.

Adjustment of the operating parameters. Oxygen and acetylene pressures and flame control.

Physical characteristics of the materials to be joined and positioned.

Preparation of materials and surfaces to be welded. Use of decapants and deoxidants.

Applications of oxiacetylenic solder. Iron and steel sheet welding at inner and outer angles with input material. Welds in a vertical position and in a ledge. Welding welding of fine wall steel tubes. Welding in copper pipes and brass material with brass rod input. Soldering in thin sheets of stainless steel. Soldering with silver material and silver in copper tubing. Capillary welding. Soldering for holes in thin sheets and fine-fit work.

Use of the oxyacetylenic torch for the heating of parts and the elimination of voltages in welded parts. Application of different flames and nozzles.

Proof of tightness and detection of pores in cylindrical and cubic containers.

Oxicorte operations with oxyacetylenic torch. Preparation of the surfaces to be cut. Cleaning and tracing of the cut. Adjustment of oxygen and acetylene pressures and flame control. Precautions to be taken with the output of the molten material.

Running the cut in a horizontal position with a controlled distance. Methods.

d) Review and repair of machine elements:

Identification in a set plane of the different pieces that make it and the join elements used.

Choice and description of the unmount and mount sequence.

Selecting and describing the tools and tools to be used in the unmount and mount procedure.

Reconstruction and repair of parts subject to wear, corrosion and cavitation.

Running the disassembly of a machine or set of parts. Control of cotas or measures subject to tolerances. Inspection of the state of corrosion or wear that the different parts present. Conditions of the rolling elements, seals and mechanical closures. Conditions of the disassembled tortilles.

Running the machine assembly or set of parts: Preparation, cleaning and conditioning of all parts Assembly assembly. Control of measurements, bounds and tolerances according to the directions of the plane. Control of all necessary dynamometric tightening. Operations of grease, lubrication and operating control. Necessary final tests: hydraulic tests, rolling tests, electrical consumption, balance and vibration. Final maintenance finishes: cleaning, painting and labelling.

Inventory and file of items consumed and control of respect.

Applications and handling and measuring devices used in the workshop. Rules, levels, squads, compasses, angles, tracers, gramiles, calibrators and others. Metric tape, gauge, micrometer, comparator clock, thread comb and digital precision measuring devices. Identification of threads in turnstiles.

Basic tests on various materials: traction, hardness and shear.

Thermal treatments: annealing, tempering and recomo.

Cold welding by application of epoxy products and resins. Application technique for welding, filling and repair of parts. Machine taquing technique.

Coating of metal surfaces. General idea of the electrolytic techniques of galvanizing, nickel-plated, chromed, pawn and others.

e) Maintenance operations during vessel stranding:

Mooring and propeller fixing systems. Disassembly and mounting.

Dismantling and mounting of the bow and aft seals and seals.

Method of removing a queue axis, with fixed-pass and variable-pass propeller. Coupling systems used.

Control of sniff and tolerances on the tail shaft and the rudder wick.

Dismantling and mounting of plate, wedge, butterfly, and anti-return valves, among others.

Different systems of galvanic and corrosion protection, employees on ships. Replacement of slaughter anodes.

Maintenance of the hull and elements installed in the living work. Squirt operations, primer application and anti-fouling paints. Control and measurement of thicknesses. Recognition of keel chillers, box-cooler, sonar and measuring equipment installed in the keel. Transverse propellers, azimuthal propellants, Voith Tractor propellants, among others.

Dismantling of propellant systems on small-power ships. Disassembly of the axle line and the external propeller. Disassembly of rudders. Disassembly of the packers. Disassembly and revision of bearings in arbotants. Disassembly and revision of floating horns.

Structural elements of construction of a limited power vessel. Longitudinal and transverse structure. Compartmentalization of the vessel. Nomenclature of the most important structural elements-Efforts supported by the hull during the stranding.

f) Preventive and corrective maintenance of the deck and fishing park machinery:

Structural elements of ship consolidation. Shipbuilding systems. Types of vessels. Dimensions and most important parts of the ship. Elements of consolidation. Nomenclature. Buoyancy of the vessel. Live work, work dead and lacking. Draught, seat, heel and load effects of the vessel. Stability of the vessel. Center of gravity and metacentro. Factors affecting stability. Interpretation of stability curves and methods to improve it.

Elements that are part of a drag machine. Electric or hydraulic motor. Reducer. Hydraulic or pneumatic brakes. Carretel, stowage and accessories.

constituent elements of the anchorage machine.

Elements used in the fishing maneuver: doors, tangons, cable stowers, network drums, network rollers, halators, pastels and tensors, among others.

Equipment and elements installed in the fishing park: processing machines, conveyor belts, centrifugal pumps, molinetes, hoists and ice machines, among others.

Maintenance of hydraulic circuits and valves installed on deck for the operation of the machinillas, gates, rollers, cranes, among others.

Emergency Repairs and Material to Use.

The safety conditions of the electrical systems installed on the cover in the open. Elements of järcia, ostas, amantillos, lanteon, halador and others used in the maneuver of freezer tuna vessels. Characteristics of the panga or wiggle boat to the fence. Main ring-fencing and auxiliary machinery used in freezer tuna vessels. Interpretation and identification of ship items, machines and equipment in the general arrangement and the ship's machinery ratio.

g) Prevention of occupational and environmental risks in workshop and stranded work:

Accident hazards in machining machines. The danger of the lathe, drill and milling. Fastening of parts on all three machines. Off-balance of the piece or tool. Road detachment. Drag from foreign objects. Inadequate speeds. Tool break.

Accident hazards in welding machines. Hazard of electrical welding, oxyacetylenic and oxycorte. Chisps, slag and molten material. Vision condition (glare). Burns by contact. Electrocution for lack of insulation. Explosions or combustion gases. Inhalation of gases. Explosions due to lack of cleaning (oxyfuel). Ease of generating fires.

Accident hazards in handling, moving, and stowage of machines and machine elements.

Risks in handling manual and portable tools.

Safety rules: equipment and facilities. Grubbing up and cleaning in the working areas. Maintenance of machining machines and tools and welding equipment. Transfer and stowage of materials and machines. Signage. Clothing and protective equipment. Authorization of special works. Hazardous work in tanks, pressurized containers, boilers and dangerous areas, among others. Communication and signalling of machine repairs, depressurization of circuits and tanks, degassing and cleaning among others.

3. Professional module: Regulation and maintenance of automatisms in ships and boats.

Code: 1174.

Contents:

a) Control of the operation of pneumatic systems:

pneumatic applications. Criteria for the selection of pneumatic controls and actuators. Elements of a pneumatic system.

Determining the work parameters of the elements of the pneumatic systems. Working pressures. Force developed by the actuators. Compressed air flow rates.

Regulation of the parameters of the pneumatic systems. Pressure regulators. Flow regulators.

Drying of compressed air. Purging systems. Drying systems.

Maintenance of the compressed air supply network. Distribution network. Intermediate tanks and accumulators. Pressure takes. Measure of pressures. Filters. Lubricators.

Normalized symbology of compressed air supply and conditioning elements.

Automation techniques.

Process Control. Open loop control. Closed loop control.

Types of industrial processes. Continuous processes. Discrete processes. Discontinuous processes.

Logical functions performed by the control systems. Analogue systems. Digital systems. Logical systems.

Performing logical functions using electrical and pneumatic processing elements. Pneumatic processing valves. Processing by electrical contacts.

Function of the elements of the chain of command. Signal input. Signal treatment. Output signal.

Representation of sequential movement developments and switching states. Diagram of movements. Operating diagrams.

Comparison of different types of control and means of work. Electric control. Pneumatic control. Electronic control.

b) Assembly and maintenance of pneumatic systems:

Application of pneumatic systems on board. Fishing boats. Sports boats. Merchant vessels.

Scheduled maintenance of pneumatic circuits.

Constitution and operation of the pneumatic elements. Track valves. Pneumatic actuators. Logical functions. Pneumatic amplifiers. Pneumatic timers. Sequential valves.

Elaboration of pneumatic schemes. Direct command systems. Indirect control systems. Intuitive methodology. Systematic methodology. Low pressure. Pneumatic memory systems.

Interpretation of pneumatic schemes. Standardized symbology. Component numbering systems. Description of the operation of the system. Operating diagrams. Technical specifications.

Location of breakdowns. Typology of characteristic breakdowns in pneumatic installations. Diagnosis and location of breakdowns.

Maintenance and repair of pneumatic installations. Preventive and corrective maintenance of pneumatic installations. Components and tools for the replacement or repair of damaged components.

Technical and procedures for mounting pneumatic systems. Interpretation of mounting schemes. Connection of elements on practice panel. Functionality verification and parameter adjustment. Application to pneumatic systems used in sports boats.

c) Maintenance of oil-hydraulic systems:

Oil-hydraulic applications in propulsion, government and auxiliary systems of the vessel. Fishing boats. Sports boats. Merchant vessels. Advantages and disadvantages of hydraulics. Work items of the hydraulic systems.

Fluid Mechanics. Fundamental theorem of hydrostatic. Analysis of the transmission and multiplication of forces and pressures in a hydraulic system. Equation of continuity. Measurement of flow rates. Typology of flow rates. Cavitation. Hydraulic oils.

Oil-hydraulic power generation. Hydraulic pumps. Oil deposits. Oil filtering systems. Distribution pipes. Oil coolers. Oil-hydraulic accumulators.

Constitution and operation of the work, command and control elements. Cylinders. Hydraulic motors. Track valves. Limiting valves. Pressure regulating valves. Anti-return valves and their variants.

Location of breakdowns. Typology of characteristic breakdowns in oil-hydraulic installations. Diagnosis and location of breakdowns.

Preventive maintenance operations.

Repair of faults in oil-hydraulic systems. Fishing boats. Sports boats. Merchant vessels.

Prevention of contamination. Techniques for emptying and purging circuits. Collection of oils and filters. Prevention of spills.

d) Installation of oil-hydraulic systems:

Elaboration of oil-hydraulic application schemes. Approach to the problem. Elements of governance. Work items. System regulation elements. Hydraulic schemes. Normalized symbology.

Interpretation of hydraulic schemes. Standardized symbology. Function of the security and regulatory elements. Description of the overall operation of the system. Operating diagrams. Technical specifications.

Oil-hydraulic element assembly. Materials and assembly tools. Techniques for assembling and connecting oil-hydraulic elements. Prevention of occupational hazards in the processes of assembly and maintenance of oil-hydraulic systems.

Tuning operation and regulatory parameters. Measurement of parameters. Regulation of flow rates. Adjusting job pressures.

Installation tests for the installation. Purging from the system. Starting the oil-hydraulic system. Testing in a vacuum. Testing with load.

e) Configuring electrical control and processing automatisms:

Normalized symbology and its representation in electro-hydraulic and electro-pneumatic installations. Flat and standard electrical schemes. Electrical elements: pulsators, sensors, contactors, relays, presostats, career endings, detectors. Electric drive: electrovalves.

Interpretation of electrical systems for electro-hydraulic and electro-pneumatic systems.

Drawing of electro-hydraulic and electro-pneumatic automotive circuits.

Assembly of electro-pneumatic and electro-hydraulic circuits of control and power. Parameter adjustment: timers, presostats.

Breakdowns features of automatisms installations. Typology of breakdowns in automatisms installations. Analysis of breakdowns in electrical automation processing systems. Breakdown analysis in drive systems.

Proportional Electro-Hydraulics. Proportional electrovalves. Two-channel amplifier. Slogan value cards.

Assembly and configuration of proportional electro-hydraulic systems. Parameters of the two-channel amplifier. Parameter value card parameters.

f) Programming of programmable logical controllers:

The structure of the programmable logical controller. Input modules. Output modules. Memory systems. Central processing unit.

Elaboration of programs. Programming languages. Structuring of the programme. PLC project editor. Technical documentation.

Communications. Programming console. Peripherals. Communication Interface. System configuration.

Assembly and connection of programmable automatons. Procedures for assembly and activation of the automaton. Test of operation and adjustment of variables.

Troubleshooting techniques in systems governed by automatons.

4. Professional Module: Maintenance of electrical installations and machines on ships and boats.

Code: 1175.

Contents:

a) Determination of the current operating parameters (c.c.), alternating current (c.a.) and three-phase alternating current:

Drivers and insulators. Influence of temperature. Superconductors.

Electrical Circuits in Continuous Stream. Series and parallel resistors. Joule Effect. Power and power. Loss of power in drivers. Voltage drop on the drivers. Coils and condensers in continuous stream.

Alternating current electrical circuits: alternating current advantages. Characteristic values of the alternating current. Resistors, coils and capacitors in alternating current. Inductive and capacitive reactance. Impedance. Resonant circuits. Serial resonance and resonance in parallel. Power factor. Improved power factor. Apparent, active and reactive power. Measures of voltage, intensity and power in single-phase alternating current.

Three-phase electrical circuits: Advantage of the use of three-phase systems. Connection of the three-phase generators. Triphasic receiver connection: star, triangle. Three-phase systems with neutral and neutral. Balanced and unbalanced three-phase systems. Improvement of the power factor in three-phase installations. Measures of tension, intensity and power in the three-phase systems. Measure of the apparent, active and reactive power in the three-phase systems.

b) Control of electrical generators:

Magnetic Circuits of Electrical Machines. Magnetic permeability and hysteresis. Parasitic or Foucault currents. Interaction between an electrical current and a magnetic field. Elemental electrical generator, alternator.

Triphasic alternator. Magnetic circuit and electrical circuit. Constitution of the stator and rotor of the alternator. Alternator with electrodynamic excitation. Alternator with brushy and excitatess incorporated into the alternator. Self-excitation and priming. Brushless alternators.

Electrical measurement systems. Analogue and digital instruments. Working position of the measuring devices. Measuring systems: mobile coil, mobile, electrodynamic, induction and vibrating sheets. Extension of the scope in the measure of intensity in alternating current with intensity transformers. Extension of the scope to the current intensity measure with Shunt resistors. Extension of the range in the voltage measurement. Power measurements.

Alternate protection systems. Automatic switch. Magnetic protection for short circuits. Thermal protection of overloads. Camara quenachispas. Minimum voltage coil. Maximum voltage coil. Cutting power of the switch. Overload relay. Non-essential services.

Alternate coupling control. Manual and automatic system. Synchronoscope and synchronism indicator lamps. Synchronism relay. Systems for the speed (frequency) regulation of alternators. Systems for the voltage regulation of the brushless alternators. Systems for the voltage regulation of brushless alternators. Load balancing, load regulation varying the speed. Operation of the alternator as a synchronous engine, reverse power relay.

Control of switching off of alternators and connection of the external outlet. Reducing the load of the alternator and disconnection. Protection from the connection of the external outlet. Exclusion of alternators and external outlet. Phase succession relay.

c) Maintenance of electrical generators and receivers:

Electrical Insulation Measurement: Isolation measurement devices (Meger). Isolation between phases and phase and mass. Low insulation lamps. Leak detection. Isolation measures in table. Isolation leak alarm. Current leakage differential relay.

Measurement of current and temperature intensity in generators and motors. Amperimetric tweezers. Consumption at startup. Measure of the temperature of windings. Operation of the fans. Temperature sensors in alternators and special motors.

Operating characteristics of DC and AC motors. Principle of operation of the DC motor. Start of the AC motor Principle of operation of the AC motor. Three-phase engines. Squirrel cage engine. Torque/speed and intensity/speed curves. Systems for starting the AC motor. Direct boot. Torque/speed curves and intensity/speed. Turning investment. Need for starry/triangle boot. Torque/speed curves and intensity/speed. Winding rotor motor and ring rings. Two-speed motor. Inability to start the Squirrel Cage single-phase motor. Starting-phase motor with auxiliary winding. Engine of phase starting with condenser. Spires engine in short circuit. Universal engine. Three-phase motor as single-phase.

Monofasic and three-phase transformers. Principle of operation of the transformer. Features of the transformer core. Relationship of transformation. Operation of the vacuum transformer. Operation of the load transformer. Transformer in short circuit. Losses in the transformer. Characteristics of the three-phase transformer. Transformer connection.

Operation of bearings and coupling. Vibration measurement. Measurement of the temperature of the bearings. Grease of bearings. Flexible coupling.

Use of tools, measuring devices and application of measurement techniques. Measure of resistance and continuity. Tension measures. Measures of intensity.

Locating and repairing breakdowns in electrical machinery. Assembly and disassembly sequences. Replacement of bearings. Operational verification.

d) Preventive and corrective maintenance operations in the main distribution table:

Documentation and symbology of the main table. Energy balance. Power consumed. Concurrency factor. Generated power. Interpretation of the documentation and electrical scheme of the main table. Characteristics of the automatic switches. Minimum voltage coil. Maximum voltage coil. Automatic power switches. Disconnection of non-essential services. Alarms and different steps. Elements linked to the fire-fighting system. Disconnection of fuel and combat equipment.

Start of the emergency group. Relay failed voltage. Start and coupling of the emergency group. Emergency box. Elements connected to the emergency box. Manual boot system.

380/220 V bars and 660/220 V. Bar isolation indicators 380 V or 660 V and 220 V bars Balance of phase consumption. Measure of the power factor.

Interpretation of the electrical scheme for the commissioning of the cold equipment. Types of start of cold compressors. Presostates. Thermostats. Indications and protections. Decompression solenoid for boot. Debeetle system.

Interpretation of the electrical scheme for the commissioning of the power equipment of the servotimon. Local or remote boot (bridge). Phase failure relay. Voltage failure relay. Solenoids or electrovalves. Career ends. Level sensors. Indicators and alarms.

Locating and repairing breakdowns in the main frame. Assembly and disassembly sequences. Operational verification.

e) Assembly of low voltage elementary electrical installations:

Design of the electrical schemes. Multifilial and single-filial schema. Scheme of force or main and scheme of command or maneuver. Tensions of force and tension of command.

Assembly of boot systems applying low voltage regulations for the choice of wiring according to the expected intensity, the number of conductors of the line and the ambient temperature. Tables. Cable types. Driving systems. Influence of the voltage drop.

Using and choosing the tool. Screwdrivers. Scissors. Pelacables.

Types of lighting lamps. Incandescent lamps. Fluorescent lamps. Reactances and primers. Capacitors to improve the Power Factor.

Maneuver, indication, protection, and control elements of AC motors. Symbology. Unipolar and bipolar switches. Single or crossover switches. Sectionators. Push buttons. Selectors. Emergency push-buttons. Indicator lamps. Fuses. Types of fuses. Minimum and maximum coil protection automatic switches. Differential switch. Engine boot switches. Contactors. Auxiliary contacts. Feedback. Protection of engines. Overload thermal relay. Maneuver relay. Winding temperature detectors. Timers to the connection and disconnect. Function relays. Career Finals. Inductive and capacitive proximity detectors. Photoelectric detectors. Wiggle transformers.

Measures of tension, intensity and continuity. Use of the polymeter. Amperimetric tweezers.

f) Continuous current facility maintenance:

Chemical effect of the electric current. Batteries. Electrolysis. Galvanic coatings. Electric batteries. Chemical energy. Types of accumulators. Characteristics of lead accumulators. Constitution and capacity of the accumulators. Voltage and load current. Voltage and discharge current. Internal resistance. Self-discharge. Battery connection.

Stream power continues to bridge devices. Continuous current frame. Protections. Three-phase voltage reducer transformer. Three-phase rectifier. Rolling of the current.

Characteristics of battery chargers. Battery charging intensity. Battery charging control. Disconnecting the load.

Characteristics of the battery charging generators. Statin trifasins. Rotor. Rotor winding. Rings and brushes. Regulator. Control of the battery charge. Variation of the excitation current with the spin speed.

Battery charging generator assembly and disassembly. Disassembly and mounting of the brushes. Disassembly and assembly of the rotor. Disassembly and mounting of the stator and the diode plate. Disassembly and assembly of the pulley. Drag strap tension.

Electric boot engine. Features of the stator. Number of poles. Rotor characteristics. Delgas collector. The connection coil of the starter motor. Gear systems.

Assembly and disassembly of the electric starter motor. Disassembly and mounting of the connection relay. Disassembly and mounting of brushes and casing. Disassembly and assembly of induced.

Battery maintenance. Check the condition of the batteries. Placement of the subject batteries in a dry and ventilated place. Maintenance of the clean and tight connection terminals. Maintenance of electrolyte level. Densimetros. Short circuit meters. Place the subject batteries in a dry and ventilated place. Keep the connection terminals clean and tight. Maintain the level of electrolyte. Avoid the complete discharge of the batteries. Work patterns during maintenance operations. Check with the tweezers effect "Hall".

Emergency light system. Relay failed voltage. Box of emergency lights. Emergency power of the navigation lights. Emergency power of the servotimon.

Alarm systems. Alarm systems for disexcited relays. Alarm systems to excited relays. Use of programmable automatons. Maneuver relays. Pressure sensors, differential pressure. Temperature sensors, NTC, PTC and thermocouples. Level sensors. Timers to the connection and to the disconnect. Indicator lamps (led diodes) and lamp testing.

g) Localization and repair by replacement of regulatory electronic systems:

Characteristics of monofasic and three-phase rectifiers. Semi-ductors. Crystal P. Crystal N. Union Diode. Diode rectifiers. Rectifier bridge. Filtering.

Battery load alternator voltage regulators. Zener diodes. Bipolar transistors. NPN and PNP. Fixed and variable resistances. Voltage dividers. Adjusting and checking the regulator according to technical documentation.

Tension regulators for brushless alternators. Controlled rectifier bridge. Dual PNPN junction. Thyristors. Thyristor control elements. Protective elements. Priming relay. Adjusting the voltage and response rate according to technical documentation.

Stress regulators for brushless alternators. Double alternator: Fixed and mobile Induction and fixed and mobile inductor. Rotary rectifier bridge. Checking of the diodes. Voltage regulation card. Adjustment of voltage and response rate according to technical documentation. Protective elements. Priming system. Overxcitation, compoundage transformers.

Characteristics of frequency converters. Igbt field effect transistors. Characteristics of bipolar transistors and field effect transistors.

Locating and repairing breakdowns in electronic regulators. Assembly and disassembly sequences. Operational verification.

h) Prevention of occupational and environmental risks in the maintenance of electrical equipment and equipment:

Labor risk regulations.

The facilities will comply with the regulations regarding conservation and safety. Grounding of all masses of the ship's electrical equipment and installations. Installation of the protection devices. Risk signalling. Risk of explosion and fire. Humidity conditions.

Stress Suspension Process: Disconnect. Prevent any possible feedback. Check the absence of tension. Grounding and shorting. Protect against upcoming elements and signal.

Risk of electric arc short circuit with voltages of less than 50 volts. Burns. Explosion and fire.

Work with higher security tensions. Training on electrical risks. Electric shock by electric arc or direct or indirect contact. First aid application. Premises at risk of explosion or fire.

Regulations on materials and equipment. Tool isolation. Insulation of the safety shoes. Gloves. Insulating equipment.

Order care and cleaning of facilities, tools and equipment.

Environmental risk regulations. Handling of hazardous waste and products. Storage and handling. Collection and disposal system.

5. Professional module: Installation and maintenance of cold and air conditioning machinery on ships and boats.

Code: 1176.

Contents:

a) Assembly of equipment in refrigeration facilities and air conditioning systems:

European standards on fluorinated greenhouse gases.

Interpretation of the technical documentation. Flat. Symbology. Regulations.

Interpretation of thermodynamic tables. Isolations. Humidity and air. Specific heat.

Management and interpretation of technical catalogues of the equipment that constitute the refrigeration facilities. Manuals. Informational.

Refrigerator compressors. Positive displacement. Alternative: open, semi-open and closed. Rotary. Screw. Gears. Spiral. Centrifugal.

Capacitors. Coefficient of heat transmission. Sensitive heat condensers: air and water. Latent heat capacitors: atmospheric and evaporative.

Evaporators. Coefficient of heat transmission. According to their use. Salt baths. Discarded from the evaporator. According to their boil. According to its constitution.

The coolant expansion control elements. Thermostatic, automatic and electronic expansion valve. Float expansion valve. Fixed expansion valve.

Pressure and temperature control elements: presostats and thermostats. Gauge. Thermometer.

Regulatory elements: Regulatory valves and solenoids.

Overpressure security elements: definition and types. Safety valve. Fuse plug.

Accessories for better performance. Oil separators. Filter dryer. Liquid and gas viewfinder. Heat exchanger. Pressure accumulator.

Freezing tunnels (ultrafast freezing). Working temperatures. Tunnels: constitution. Product conveyor element.

Heat Pumps: Types and features. Four-way valves. Water-air pump. Air-to-air pump. Pump solar power.

b) Operations for commissioning, control and stopping of the refrigeration plant and the air conditioning system:

Verification of the retainers and sealed in the compressor transmission. Check the proper functioning of the carter's resistance. Temperature of the oil.

Identification of the state of the circuit valves: electrical connection. Mechanical drive.

Compressor operation check. Electrical operation. Mechanical operation.

Condenser check in its constitution and its condensation elements (air-water).

Check on the evaporator of the decking systems or drainage pipes of the condensed water (wet air).

Check the air conditioning system of the four-way valve functionality (heat pump).

Checking and calibrating control and regulatory presostats.

Checking and calibration of temperature control and control elements (thermostats).

Checking the security elements against the overpressures: safety valve. Fuse plug.

Control of the wetties in the inner circuit.

Handling of fluorinated greenhouse gases:

Load and recovery.

Maintenance and revisions.

Precautions with equipment using fluorinated greenhouse gases.

State of the gas and coolant liquid. Viewers. Levels.

Check the stop device.

c) Localization and repair of faults and breakdowns of equipment and elements of the refrigeration and air conditioning installation.

Interpretation of parameters contained in the technical documentation.

Failure and fault location protocols.

evaporator temperature.

Aspiration pressure.

Room temperature or cooling space.

High pressure.

Temperature of the suction and liquid lines.

Expansion valve pressure.

Operating time.

Noise.

Four-way valve.

Compressor assembly and disassembly.

Assembly of condensers and evaporators.

Regulatory valve assembly and disassembly.

Gas and liquid driving systems.

Discarding systems.

Treatment of fluorinated greenhouse gases. Recovery. Maintenance of equipment. Leak detection and repair.

Measuring Devices on their different media.

Elaboration of the report with technical breakdown of the breakdown: causes and remedies.

Elaboration of the report on the state of the installation in operation after repair.

Procedures for dismantling, repairing and assembling equipment, taking into account the technical documentation and use of measuring and calibration devices.

Calibration procedures and tolerance controls.

Technical documentation for the location of the elements that make up the installation.

Controls and tuning of the measurement devices to be used in repairs.

d) Preventive maintenance of the refrigeration system and the air conditioning system:

Relevant data from the teams. Manufacturer. Supplier. Inspections carried out, official and non-official.

Interpretation of technical documentation.

Programming of maintenance. Cold installation. Air conditioning system.

Preventive maintenance procedures. Cold installation. Air conditioning system.

Characterization of the most frequent breakdowns.

Crafting log books.

Safety reports, job risks, and waste recovery.

Control and storage of respect pieces.

Control and storage of tools and tools.

Coordination of jobs.

Assessment of team work.

e) Prevention of occupational and environmental risks:

Labor risk application regulations during repair and maintenance operations. Cooling area. Freezing area.

Pressurized areas.

Safety application measures in the shipment of coolant and oil.

Regulations applied to refrigerated transports.

Rules for individual and collective protection.

Protective measures in electrical areas.

Safety measures in areas of work in sport and recreational craft.

Hygiene and cleaning measures at work. Noise. Ventilation. Moisture. Lighting.

Elaboration of accident reports.

6. Professional Module: Machine guard procedures.

Code: 1177.

Contents:

a) Organization of the Guards:

Composition and organization of the guard. Role of responsible guard. Criteria for organisation. Applicable rules. STCW and STCW-f conventions. Assignment of functions.

Characteristics of the driving machinery and the auxiliary equipment of the ship. Characteristics of the machine and auxiliaries. Regime of revolutions in progress. Engine response to speed changes. Avant-back investment time. Fuel consumption at different speeds. Situation and number of consumption tanks (Tank Planes).

Supply of fuel supplies and respect. Calculation of the capacity of the tanks. Capacity tables. Check the status of the tanks. Sound procedures. Specification of the necessary supplies. Stock control. Seat and heel control in tank filling/emptying. Pay for your respects, taking into account security. Effect of free surfaces on stability.

Study of the intended voyage. Reigning time during the entire journey. Adequacy of the speed to the meteorology. Observation of the system changes of the machine. Internal media. Observation of permanent or occasional orders.

Checking the documentation. Completion of the journal of machines. Instructions for the different installations. Information logging systems.

Waste water management during guards. Use of the sentine separator. Compliance with related international and national standards.

Checking the fire material.

Elaboration of schedule reports. Exemplification. Recording methods. Quality control system.

Teamwork rules.

b) Machine sailor's guard:

Machine sailor functions according to STCW and STCW-f conventions.

Guard in machines spaces without permanent endowment.

Normalized orders of the machine sailor. Security rounds. Operating parameters of the main engine. Operating parameters of the auxiliaries. Basic maintenance operations during the guard. Incident communication.

Practice of the watch service during the guard. Hearing and visual surveillance. Visual failure detection. Check the operation of the alarms. Observation of the condition of the machine spaces. Safety standards and the prevention of environmental risks. Communication of the anomalies to the on-call officer.

Guard relay.

Attitude of collaboration and respect for colleagues.

Obligations in the emergency case during the guard. Make the emergency equipment work. Implement emergency procedures. Notice of fire. Flood warning. Achique warning.

c) Machine officer guard procedures:

Functions of the guard officer in navigation, port and anchorage. Prescriptions of STCW and STCW-f. Compliance with the orders of the head of machines. Obligations in port and anchorages. Visual and auditory surveillance. Verification and inspection of machinery equipment as the most responsible. Accidents caused by a negligent exercise of the guard. Identification of critical situations. Identification of priorities.

Response to the bridge orders.

Leadership criteria and respect for peers.

Application of permanent orders and rules on pollution.

Verifying the various alarms.

Periodic check of tanks and levels. Control of propellant oil levels. Verification of the levels of oils in the hydraulic system. Discharge from the sentine. Specification of the communication in a machine room.

Guard delivery and reception protocols. Performing routine records and events during the guard on the machine notebook and other log books.

d) Control of the operation of the propellant plant:

Parameter monitoring. Manual and automatic monitoring and control. Alarms and safeties of the teams. Parameters to be taken into account in the different equipment. Portable measuring devices. Use and application.

Thermodynamics applied. Fundamental concepts of thermodynamics. Thermodynamic cycles: Carnot, Otto, Diesel, Brayton and Rankine cycles. Thermal Performance: Theoretical and real.

Dynamic of the booster system. Forces and moments in the booster. Forces and moments transmitted to the hull. Resistance to advancement. Concepts of regime, by engine, work and power. Relationship between these parameters. Factors that influence the engine torque. The characteristics of the engine are curved. The specific consumption. Variables that affect specific consumption.

Power of the booster. Indicated power and effective power on the shaft. Combustion diagrams and their relation to the indicated power. Control and check of combustion in an engine. The thermal performance and its relation to the indicated power. The mechanical performance of the engine. Power losses on the axis line. Taking of data. Parts of machines.

Communications. Use of technical vocabulary related to the maneuver of the propellant plant.

Initial reactions to an operating failure of the propellant plant or auxiliary machinery.

Actions in critical situations: protection of equipment in special risk navigations. Response of the booster in critical situations. Trasiegos to maintain stability. Navigation with one of the damaged elements (a piston).

e) Response to contingencies and emergencies during the guard:

Typology of possible emergencies during navigation.

Correction or attenuation of possible damage to machines by failure or known defect through control panel warning and indicator readings.

Interpretation and identification of the various alarms of the equipment. Acoustic signals. Visual cues. Failures not detected by alarms.

Attenuation of emergency situations with machine movements.

Identification of specific hazards.

Immediate action in case of emergencies. Booster stop. Stop of some auxiliary. Plant fall. Government of the ship from the servomotor. Fire in engine room. Measures to be taken in the event that the water is flooded by the machinery chamber. Flood evacuation of the engine room. Water inlet by the press of the shaft of the propeller. The propeller loses revolutions due to an external anomaly. The rudder does not respond correctly for external cause. Risk of boarding. Fortuitous and voluntary stranding. Anchor garreo in anchor position. Emergency stop with machine back. Man to the water. Rescue of a vessel. It sweeps from the trawler net. Interpretation of the organic picture for emergencies, abandonment and fires.

Making effective plans in case of emergency.

Preparing contingency plans to address emergency situations.

Determining the contingencies on the main machine and the auxiliaries. Alteration of the parameters of the main engine and the auxiliaries. Navigation in adverse situations (bad weather and ice, among others). Precaution in navigation by shallow water. Alarm dysfunctions. Failures in the automatic achique system. Failures in the servo system. Observation of the power plant. Recording of the intervention in the machines journal.

Determination of the alternative measures in case of emergency of some element of the equipment. Lifting and handling of heavy elements. Disassembly of machines. Use of chemicals. Use of hydraulic systems and pressurised tyres (presses, hydraulic jacks and cranes, among others). Risks in handling manual and portable tools. Manual tool handling. Handling of dangerous portable tools (amolors, drills, livers and polishing machines, among others). Safety standards. Equipment and facilities. Grubbing up and cleaning in the working areas. Maintenance of machining machines and tools and welding equipment. Transfer and stowage of materials and machines. Signage. Clothing and protective equipment. Authorization of special works. Hazardous work in tanks, pressurized containers, boilers, hazardous areas, among others. Communication and signalling of machine repairs, depressurization of circuits and tanks, degassing and cleaning among others.

7. Professional Module: English.

Code: 0156.

Contents:

a) Oral message analysis:

Understanding professional and everyday messages:

Direct, telephone, radio, recorded messages.

Industry-specific terminology.

Top and Secondary Ideas.

grammatical resources: Verbal times, prepositions, locutions, expression of the condition and doubt, use of passive voice, relative prayers, indirect style, prepositional verbs, modal verbs, and others.

Other linguistic resources. Functions: likes and preferences, suggestions, arguments, instructions and disagreements, hypotheses and speculations, opinions and advice, persuasion and warning.

Different oral language accents.

Identification of records with greater or lesser degree of formality based on communication intent and communication context.

Using strategies to understand and infer meanings by the context of words, unknown expressions, and implicit information in oral texts on professional topics.

b) Interpretation of written messages:

Prediction of information from textual and non-textual elements in texts written on various topics.

Digital, computer, and bibliographic resources, to solve problems of understanding, or to search for specific information needed to perform a task.

Understanding messages, texts, professional and everyday basic articles:

Telematic media: fax, e-mail, burofax.

Industry-specific terminology. Analysis of the most common errors.

Main idea and secondary ideas. Identification of the communicative purpose, textual elements, and how to organize information by distinguishing the parts of the text.

grammatical resources: verbal times, prepositions, prepositional verbs, passive voice usage, relative prayers, indirect style, modal verbs, and others.

Logical relationships: opposition, grant, comparison, condition, cause, purpose, result.

Temporary relationships: Earlier, after, concurrency.

c) Production of oral messages:

Records used in the issue of oral messages according to the degree of formality.

Industry-specific terminology.

grammatical resources: verbal times, prepositions, prepositional verbs, locutions, expression of the condition and doubt, use of passive voice, relative prayers, indirect style, modal verbs and others.

Other linguistic resources. Purpose. Tastes and preferences, suggestions, arguments, instructions, agreements and disagreements, hypotheses and speculations, opinions and advice, persuasion and warning.

Phonetic. Vocallic sounds and phonemes and their combinations and sounds and consonant phonemes and their groupings.

Linguistic markers of social relationships, rules of courtesy, and record differences.

Maintenance and follow-up of oral speech:

Informal informal conversations on everyday issues and their professional scope. Participation. Personal opinions. Exchange of information of personal interest.

Resources used in the elementary planning of the oral message to facilitate communication. Sequencing of oral speech.

Take, maintain, and release the word shift.

Support, demonstration of understanding, request for clarification, etc.

Entonation as a cohesion resource of the oral text: use of intonation patterns.

d) Issue of written texts:

Making a text. Planning. Use of the necessary strategies: ideas, cohesive paragraphs and review of drafts.

Expression and fulfillment of professional and everyday messages and texts:

Curriculum vitae and telematic media: fax, e-mail, burofax.

Professional area-specific terminology and productive sector.

Main idea and secondary ideas. Communicative purpose of textual elements and how to organize information by distinguishing the parts of the text.

grammatical resources: verbal times, prepositions, prepositional verbs, modal verbs, locutions, passive voice use, relative prayers, indirect style. Links: "because of", "since", "although", "even if", "in spite of", "despite", "however", "in contrast" and others.

Sequencing of written speech: "first", "after", "then", "finally".

Derivation: suffixes to form adjectives and nouns.

Logical relations: opposition, concession, comparison, condition, cause, purpose, result, consequence.

Temporary relationships: Earlier, after, concurrency.

Textual consistency:

Adapting text to the communicative context.

Type and text format.

Variety of language. Record.

lexical selection, syntactic structures, and relevant content.

Start of speech and introduction of the theme. Development and expansion.

Exemplification.

Conclusion and/or summary of speech.

Usage of punctuation marks.

Writing, in paper and digital support, descriptions of professional experiences and events, real or imagined facts, correspondence, reports, summaries, news or instructions, with clarity, language simple and sufficient grammatical and lexical adequacy.

Graphic elements to facilitate understanding: illustrations, tables, graphics, or typography and on paper and digital support.

e) Identification and interpretation of the most significant cultural elements of foreign language (English) countries:

Valuation of socio-cultural and protocol standards in international relations.

Use of formal and functional resources in situations that require socio-professional behavior in order to project a good company image.

Recognition of the foreign language to deepen knowledge that is of interest throughout personal and professional life.

Use of appropriate records according to the context of the communication, the caller, and the intent of the interlocutors.

Interest in the good presentation of written texts in both paper and digital support, with respect to grammatical, orthographic and typographic standards.

8. Professional Module: Maritime Safety.

Code: 1032.

Contents:

a) Review of the emergency plan for the abandonment situation:

Characterization of maritime emergencies. Regulatory references, according to type of vessel. Analysis of maritime accidents.

Minimum emergency plan structure and contents.

Minimum COICE structure and contents.

Identification of emergency signals.

Interpretation of salvage planes and IMO symbols.

Characterization of the salvage devices. Individual. Survival craft. Rescue boats. Systems for putting up and boarding. Others (grenade launchers and public address system). Passenger ship salvage devices.

Equipment for survival craft and rescue boats.

Procedures and planning for maintenance and inspection of salvage devices.

Elaboration of control lists.

Training of crew and passengers.

Control and assistance to passengers in emergency situations.

b) Means and techniques of abandonment and survival:

Radio relief equipment. Bidirectional metric wave apparatus (SMSSM). Radar responder (SMSSM). Casualty location (SMSSM) radiobalises. Personal radio-beacons.

Water survival techniques. Using individual salvage devices. No lifesaving devices.

Use of start-up and embarkation and recovery of survival craft and rescue boats with and without bad weather.

Characterization of marine evacuation systems (MES- passenger ships).

Handling survival craft and recate boats with and without bad weather.

Survival techniques on board survival craft.

pyrotechnic signal equipment. Rocket launchers with parachutes. Hand Bengal. Floating spray signals.

c) Prevention and fire fighting on board:

Procedures and planning for maintenance and inspection of fire fighting equipment and media. Regulatory references.

Fire theory and its main characteristics.

Classification of fire (by fuel).

Heat propagation.

Explosions: concepts and types.

Extinction mechanisms.

Extinguishing Agents. Gaseous. Solids. Liquids. Containment of a fire using structural divisions. Prevention in the loading of dangerous goods and fire fighting. In bulk (Bulk/IMO Load Code). In packages (IMDG/IMO code).

Fire precautions and risks related to the storage and handling of materials.

Obligations and instructions for emergency cases (COICE).

Fire alarm signals.

Fire/IMO Signalling and Plan.

Training manuals.

Fire network and its add-ons. Fire bombs. Emergency fire pump. Hydrants. Spears/nozzles. Hoses. International connection to land. Others.

Fire detection. Detection and alarm centre. Smoke detectors. Temperature detectors. Flame detectors. Smoke detectors. Smoke detection systems for sample extraction.

Fixed fire installations: Carbon dioxide (CO2). Of other gases. Foam. Of powder. Water.

Evacuation routes and their signage. Low-level lighting systems (passenger ships).

Emergency evacuation respiratory equipment (AREE).

Organization and tactics for fighting fires at sea or in port.

Water use for firefighting. Effects on stability, precautions and corrective measures.

Control of fans, including smoke extractors.

Fuel control and electrical systems.

Risks of the fire fighting process: Dry distillation. Chemical reactions. Fires in boiler fireplaces.

Research and information gathering on fire causes.

d) Use of fire fighting equipment:

Adequacy of the media and the extinguishing agent used according to the type of fire.

Mobile and portable fire fighting equipment and its use. Extinguishers. Cars. Low expansion foam generator.

Reload of attached pressure extinguishers.

Firefighter's equipment and its use. Protective suit. Helmet. Safety boots and gloves. Safety flashlight. Axe. Flame retardant life line.

Autonomous breathing equipment (ERA) and its use. Bottle. Trelera. Mask. Low pressure regulator. Chemical protective suits and their use.

Use of hoses and spears to put out fires of liquid and gaseous fuels.

Generation and use of foams. Low expansion. Average expansion. High expansion.

e) Flood control:

Regulatory references.

Planes and manual of struggle against breakdowns.

Doors and watertight joints. Hinge. Vertical closure. Slide closure.

Waterways.

Underpinning. Direct compression method. Triangular method. Rectangular method.

Indoor or outdoor Tapping of water paths.

Pipeline Parching.

Portable achique equipment. Bombs. Ejectors. Hoses.

Setting the boundaries of a flood.

Main, direct and emergency conduits for the bilge of the sentines and the local ones that drain: procedures and planning of maintenance and inspection of fixed installations and portable equipment of achique.

f) Prevention and control of pollution:

Regulatory reference.

Effects of accidental pollution of the marine environment.

Vulnerable maritime zones.

Basic environmental protection procedures.

Knowledge of international maritime law incorporated in international agreements and conventions to the extent that they affect the specific obligations and responsibilities of the machinery section, in particular in the concerning the safety and protection of the marine environment.

Knowledge on the prevention of pollution of the marine environment.

Contingency plan for accidental discharges of hydrocarbons or other pollutants (SOPEP/SMPEP).

Techniques for the fight against oil pollution.

Chemical pollution control techniques.

Cleaning techniques. In port. In coasts.

Equipment and means of combating pollution and criteria for use.

Equipment utilization, cleaning, and conservation procedures.

Waste management on board.

9. Professional module: Health care on board.

Code: 1033.

Contents:

a) Determination of preventive health measures:

Individual and collective hygiene: Skin hygiene. Hygiene of the organs of the senses. Hygiene of clothing, footwear and work equipment. Mental hygiene. Hygiene in adverse climates. Order and cleanup.

Ship and cargo hygiene: Enablement spaces and cargo spaces.

The ship's sanitation techniques. Parasitology and epidemiology.

Environmental hygiene: ventilation, heating, cooling, air conditioning and lighting.

Food hygiene: water. Food. Nutritional substances. Balanced diet. Risks of malnutrition.

Analysis and assessment of the main risks on board ships: risk map and prevention and protection measures. Basic regulations concerning accidents at work, occupational diseases and the prevention of occupational risks.

Crew preventive training activities.

Misuse of drugs, alcohol, and other psychiatric emergencies: Consequences of acute ethyl intoxication and drug effects on safety on board. Main drugs of abuse and its effects.

Vaccination in the seafarer.

Health regulations. Book of naval hygiene. Physical education.

Regulatory kit types and composition. Identification codes for the material included in the kit.

b) Initial patient assessment:

Vital constant-taking techniques.

Patient examination: assessment of the patient's state of consciousness or unconsciousness. Quantify the carotid and radial pulse. Quantify the breath. Temperature intake. Pupillary reflex. Basic medical history.

Elementary scanning techniques: Head and neck. Thorax. Abdomen. Extremities.

Structure and main functions of the apparatus and systems of the human body: identification and location on a mannequin of the main organs and anatomical structures.

Signs and symptoms of urgency.

Pathologies and situations requiring medical consultation by radio.

Medical information radio services. Radio-medical procedure manuals.

International Medical Guide on board. Medical section of the CIS.

Normalized communications vocabulary.

Healthcare terminology in English.

Psychological principles and communication techniques in situations of accident or emergency: assistance-accident communication. Psychological support for emergency situations. Personal attitudes that facilitate or hinder communication. Principles of general psychology. Psychology of the victim. Family-family communication.

(c) Organization of the rescue, transfer and evacuation of sick and injured persons on board:

Rescue media on board: Maniworks with rigging. Use of machines and tools. Handling of cabs and cables. Security material. Protective equipment.

Methods of rescuing and transporting an injured/ill: two maneuvers with a single rescuer: rescue of a rough spot of narrow places and rescue of a person for evacuation by ladder. Two maneuvers with two first responders: two-and three-handed chairs. Three maneuvers with several first responders for possible spinal injuries: techniques to be employed.

Collection of an injured.

Assessing the transportation of a sudden or bumpy sick person.

Preparation of the injured/ill for evacuation or transfer: Application of first aid measures.

Trucks: types. Use on a ship. Making stretchers using conventional or non-specific means.

Means of preventive immobilization of injuries.

Locking techniques: from a fracture. Of the injured person in case of spinal trauma.

Trauma-handling techniques with trauma.

Stretcher positioning techniques.

Trincado and zafado operations of the patient.

Immobilization and transportation techniques using nonspecific or fortune materials.

Evacuation techniques.

Machine chamber plans, holds, tanks, and general ship layout.

d) Care and basic healthcare:

Drug administration principles: methodology for the use of drugs. Incompatibilities between medicines. Side effects. Expiration and updating of the kit material. Concept of active principle and trade name. Danger of administration of medicinal products without medical prescription. The reserved use of morfins.

Asepsis Techniques.

Hygienic care: Hygiene measures of the room and bed.

Power.

Wounds and burns: basic treatment. Types. Symptomatology. Performing cures. Protection. Major complications.

Susceptible to suturing wounds with adhesive tape points.

Techniques and routes of medication administration: oral, sublingual, inhalational, ophthalmic, cutaneous, rectal, and parenteral.

Injectables. Parenteral needles. Indications.

Techniques for the administration of intramuscular injectables.

Presentation of medicines: creams, ointments, lotions, powders, solutions, capsules, grasses and tablets.

Assistance report.

e) Application of first aid techniques, especially in relation to the type of injuries to be expected in the machinery spaces:

Medical-health terminology in first aid.

First aid: concept, general principles, objectives and limits. First aid manuals.

First aid action protocols.

Haemorrhages: types. Containment of bleeding.

Shock: causes and symptoms.

Injuries caused by heat and cold. Hypothermia: symptomatology. Measures to be taken.

Trauma of hard parts, cranial and spine: symptomatology. Cuttings, luxations and fractures. Measures to be taken.

Poisonings: routes of entry of toxins in the body. Symptoms. Action before an intoxicated patient. Alcohol and narcotic poisonings.

Stress control strategies.

Strange bodies: on the skin, eyes, ears, and nose.

Electrical accidents. Electrocution: injuries caused by electricity and lightning.

Convulsive pictures: epilepsy and other convulsive pictures.

Basic cardiorespiratory resuscitation (CPR) techniques.

Methods for unclogging the airway and facilitating breathing.

Ventilation Techniques: Non-Equipment Ventilation.

External cardiac massage.

10. Professional module: Training and employment orientation.

Code: 1178.

Contents:

a) Active job search:

Valuation of the importance of permanent training for the work and professional trajectory of the technician in Maintenance and Control of the Machinery of Ships and Embarks.

Analysis of personal interests, skills and motivations for the professional career.

Identification of the training itineraries related to the Maintenance and Control of the Machinery of Ships and Boats.

Definition and analysis of the professional sector of the Technical Maintenance and Control of the Machinery of Ships and Embarks.

Responsible for learning itself. Knowledge of the requirements and expected fruits.

Planning your own career:

Setting work goals, in the medium and long term, compatible with needs and preferences.

Realistic and consistent goals with current and projected training.

Job search process in small, mid-sized, and large companies in the industry.

Learning and employment opportunities in Europe. Europass, Ploteus.

Job search techniques and instruments.

Self-employment assessment as an alternative for professional insertion.

The decision-making process.

Setting a personal checklist of consistency between career plan, training, and aspirations.

b) Conflict management and work teams:

Methods for conflict resolution or suppression: mediation, reconciliation, and arbitration.

Valuation of the advantages and drawbacks of the team work for the organization's effectiveness.

Equipment in the shipping and fisheries sector, depending on the functions they perform.

Analysis of the training of work teams.

Features of an effective work team.

The participation in the work team. Analysis of the possible roles of their members.

Conflict: features, sources, and stages of the conflict.

c) Job Contract:

The right of the job.

Intervention of public authorities in industrial relations.

Analysis of the individual labor relationship.

Determination of excluded labor relations and special labor relations.

Hiring contract modes and promotion measures.

Rights and duties arising from the employment relationship.

Working Conditions. Salary, work time and work rest.

Modifying, suspending, and extinguishing the work contract.

Representation of workers.

Collective bargaining as a means of reconciling the interests of workers and employers.

Analysis of a collective agreement applicable to the professional scope of the Technical Maintenance and Control of the Machinery of Ships and Embarks.

Collective conflicts of work.

New work organization environments: subcontracting, teleworking, among others.

Benefits for workers in new organizations: flexibility, social benefits, among others.

d) Social Security, Employment and Unemployment:

The Social Security System as a basic principle of social solidarity.

Structure of the Social Security system.

Determination of the principal obligations of employers and workers in the field of social security: affiliation, ups, downs and contributions.

The protective action of Social Security.

Classes, requirements, and benefits.

Concept and situations that are protected by unemployment.

Systems of workers ' advice regarding their rights and duties.

e) Professional risk assessment:

Importance of preventive culture at all stages of professional activity.

Assessment of the relationship between work and health.

Analysis and determination of working conditions.

The concept of professional risk.

Risk Factor Analysis.

Risk assessment in the company as a basic element of preventive activity.

Risk analysis linked to security conditions.

Risk analysis linked to environmental conditions.

Risk analysis linked to ergonomic and psycho-social conditions.

Specific risks in the shipping and fisheries sector.

Determination of the possible health damage to the worker that can be derived from the identified risk situations.

f) Planning for risk prevention in the enterprise:

Rights and duties in the field of occupational risk prevention.

Responsibilities in the field of occupational risk prevention.

Managing prevention in the enterprise.

Representation of workers on preventive matters.

Public bodies related to the prevention of occupational risks.

Planning for prevention in the enterprise.

Emergency and evacuation plans in work environments.

Elaboration of an emergency plan in a small or medium enterprise in the sector.

g) Application of prevention and protection measures in the enterprise:

Determination of individual and collective prevention and protection measures.

Action protocol in an emergency situation.

Training for workers in the field of emergency plans.

Surveillance of workers ' health.

11. Professional module: Enterprise and entrepreneurial initiative.

Code: 1179.

Contents:

a) Entrepreneurship Initiative:

Innovation and economic development. Main features of innovation in fishing activities (materials, technology and production organisation, among others).

Entrepreneurial culture as a social need.

The entrepreneurial character.

Key factors for entrepreneurs: initiative, creativity and training.

Collaboration between entrepreneurs.

The performance of entrepreneurs as employees of a company related to maritime transport activities.

The performance of entrepreneurs as entrepreneurs in the maritime transport activities sector.

The risk in entrepreneurial activity.

The entrepreneur. Requirements for the exercise of business activity.

Personal goals versus business goals.

Business Plan: the business idea in the field of shipping activities.

Good practices of entrepreneurial culture in the activity of maritime transport and at the local level.

b) The company and its environment:

Basic company functions.

The enterprise as a system.

The overall business environment.

Analysis of the overall environment of a company related to the fisheries maritime sector.

The company's specific environment.

Analysis of the specific environment of a company related to the fisheries maritime sector.

Relationships of a business related to the fisheries sector with its environment.

Relations of a company related to the marine fisheries sector with the society as a whole.

Company culture: corporate image.

Social responsibility.

The Social Balance.

Business ethics.

Social and ethical responsibility for companies in the fisheries sector.

c) Creating and starting a company:

Company concept.

Enterprise Types.

The responsibility of the owners of the business.

Taxation in companies.

Choice of the legal form. Dimension and number of partners.

Administrative formalities for the formation of a company.

Economic Viability and financial viability of a company related to the fishing maritime sector.

Analysis of the sources of financing and budgeting of a company related to the fishing maritime sector.

Aid grants and tax incentives for SMEs related to the maritime fisheries sector.

Business plan: choice of legal form, economic and financial feasibility study, administrative procedures and management of grants and grants.

d) Administrative function:

Concept of basic accounting and notions.

Accounting operations: recording the economic information of a company.

Accounting as a true picture of the economic situation.

Analysis of accounting information.

Corporate Tax Obligations.

Requirements and deadlines for the filing of official documents.

Administrative management of a company related to the fisheries maritime sector.

12. Professional module: Training in job centres.

Code: 1180.

Contents:

a) Identification of the structure and business organization:

Structure and business organization of the fishing maritime sector.

Company activity and its location in the fishing maritime sector.

Organization chart of the company. Functional relationship between departments.

The company's logistics organization. Suppliers, customers, and marketing channels.

Work procedures in the company scope. Systems and methods of work.

Human resources in the enterprise: training requirements and professional, personal and social skills associated with different jobs.

Quality system set in the job center.

The security system set in the job center.

b) Application of ethical and labour habits:

Personal Attitudes: empathy, punctuality.

Professional attitudes: order, cleanliness, responsibility and security.

Attitudes to the prevention of occupational and environmental risks.

Hierarchy in the enterprise. Communication with the work team.

Documentation of professional activities: methods of classification, coding, renewal and elimination.

Recognition and application of internal rules, work instructions, standard procedures of work and others, of the company.

c) Preparation of the propellant plant and auxiliary machines for the trip or tide.

Characterization of the spaces and equipment of maintenance of the propellant plant and auxiliary machinery. Main engine. Auxiliary engines. Auxiliary equipment. Facilities and services. Tank disposal.

Control of fuel and consumption stocks. Fuel intake. Preventive measures for safety and environmental protection. Tank probe. Handling of calibration tables.

Traits. Interpretation of plans. Sequence of operations.

Checking security, alarm, and emergency systems. Fire systems. Governance system.

Preparations to start maneuvers. Communications. Communications with the bridge. Use of technical terminology.

Respect to the standards of work, behavior and coexistence on board.

Fulfillment of records. Official records. Training record.

d) Participation in the maneuver and guard of machines.

Boot operations. Auxiliary engines. Main engine and equipment required.

Maneuver. Control operations of the plant during the execution of the maneuvers in port. Parameter control.

Control of energy demand. Coupling of generators.

Guard procedures according to STCW and STCW-F. Control of parameters of operation of propulsion systems, auxiliary machinery, government, electrical installation, automatic systems of regulation and control, as well as of the installations and equipment that affect the safety of the ship.

Preventive maintenance operations scheduled during the guard. Checking levels and operations with tanks. Weighed down. Trasiego. Achique. Reachique. Compliance with safety standards.

Collaboration in corrective maintenance operations under the supervision of the guard officer. Compliance with safety standards.

Compliance with safety and environmental protection regulations.

Respect to the standards of work, behavior and coexistence on board.

Guard records in the machine notebook and in the training record.

e) Maintenance of equipment in refrigeration, air conditioning and mechanical equipment of the fishing park.

Interpretation of technical documentation. Cold installations and air conditioning systems of the ship.

Control and regulation of the refrigeration plant and the air conditioning systems of the ship.

Preventive maintenance operations of cold installations and air conditioning systems. Cleaning, lubrication and lubrication, adjustment of the joining elements, correction of holgures, alignments, tension of transmission belts, among others.

Preventive maintenance operations of mechanical equipment of the fishing park. Cleaning, adjusting and greasing. Verification of its operation.

Diagnosis of frequent breakdowns.

Participation in corrective maintenance work. Preparation of the work area. Sequence of operations. Handling of equipment and materials.

Compliance with safety and environmental protection regulations.

Respect to the standards of work, behavior and coexistence on board.

Fulfillment of records.

ANNEX II

Sequencing and weekly hourly distribution of professional modules

Mid-Grade Forming Cycle: Technical in Maintenance and Control of Ship and Boat Machinery

1032. Maritime security. (2)

Module

Duration

(hours)

First course

(h/week)

Second course

2 quarters (h/week)

1 quarter (hours)

1172. Maintenance of the propellant plant and auxiliary machinery.

230

7

1173. Machining and welding procedures on ships and vessels.

230

7

1175. Maintenance of electrical installations and machines on ships and vessels.

190

6

0156. English. (2)

160

5

1178. Job Training and Guidance.

90

3

1179. Enterprise and entrepreneurship.

60

2

 

1174. Regulation and maintenance of automatisms on ships and vessels.

180

8

1176. Installation and maintenance of cold and air conditioning machinery on ships and vessels.

180

1177. Machine guard procedures. (1)

90

5

130

6

 

1033. Health care on board. (2)

60

3

1180. Job center training.

400

400

in the formative cycle.

2000

30

30

400

(1) Cross-sectional modules.

(2) Professional modules cross-cutting to other Professional Training titles.

ANNEX III

Minimum spaces and equipment

Spaces:

Form Space

(2)

Surface

30 pupils

20 pupils

60

60

40

Maintenance Space.

210

140

90

60

space.

90

60

Simulation room. (1)

90

60

60

40

Aid Classroom. (2)

60

40

-fire and survival area. (3)

120

90

(1) You can be replaced by a specific craft for the development of the machine guard module.

(2) They can share same space.

(3) Unique spaces not necessarily located in the Training Center or belonging to it.

Minimum Equipment:

Forative Space

-purpose Aula.

Computers installed in network, projection system, and internet.

Audiovisual media.

Application computer programs.

maintenance space.

Diesel engine on test bench with brake.

Water-jet engine.

Use and special tools for disassembly/assembly of the engine.

Diesel and gasoline engine machines.

Turbos sectioned.

Fuel Debugger with Disk Set.

Air Compressor boot.

Test Bank for injection pumps.

Injector Test Pump.

Endoscope.

Compression.

Measurement and control devices combustion in diesel engines.

Exhaust Gas Scanners.

Piezoelectric combustion and injection pressure indicators.

Protective equipment individual (EPI's).

Machines Electric arc welding with coated electrode, fitted with one in one.

MIG welding with different applications.

TIG welding with different applications.

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Work table for plotting, cutting, and preparing parts.

Anvil, tongs, work screws, and hand tools for handling parts.

Tornos, drills, grinding machines, milling machines, and portable tools for machining.

Machining use for all machine tools: blades, drill bits, strawberries, scariers, hazelnuts, limes, lijas, knickers, among others.

measurement: micrometers, gages, calibers, goniometers, clock comparator, alexometers, fleximeters, calibrators, threads of threads, among others.

Tools for the disassembly and assembly of machines: extractors, dynamometric keys, sacroppers, hydraulic jacks, presses and Special tool for dismantling/assembly of machinery.

Equipment for measuring: temperature, vibration, surface finish (rugosimeter), among others.

Durometer and test bench traction.

Hurno or torch for perform thermal treatment tests

and electronics space.

Electrical tables for the boot mount, investment, star/triangle.

Actual or simulated alternator coupling equipment.

Actual or simulated power distribution table.

Three-phase transformers and monofasics.

Different types of engines Three-phase: Squirrel Jaula, winding rotor, two speeds.

Different types of single-phase engines: Universal, phase-based, short-circuit engines.

Alternators for loading batteries.

Dinamo.

Taco dynamo.

Tachometer.

Stream boot engines.

Multiple Boot Batteries.

Measure appliances: Polymeters, amperimetric tweezers, Hall effect tweezers, isolation meters, oscilloscopes, battery checkers, densimeters.

Equipment for circuit assembly simple electronics.

Tin welders.

Power supplies.

Frequency Regulator Equipment.

Tools manuals.

Extractors.

Consumable Material: electrical cable, terminals, connected reglettes, relays, contactors, push buttons, fuses, switches, etc.

space.

Cold Equipment:

Vacuum Pumps.

Piping of different variants.

Cold and Air Panels conditioning.

Useful for cooling load.

Utiles for oil loading.

Useful for cutting pipes.

Useful for abocardar.

Useful for drawing.

Used to bend and clean pipes.

Useful for fin cleaning (evaporators and capacitors).

Soft welding equipment.

Humidity Meter.

Speed Meter air.

Appliances for refrigerant and oil loading.

Presostats.

Thermostats.

Manometers.

Thermometers.

Expansion valves of different types.

Capacity Regulatory Valves.

Boot Regulatory Valves.

Hold valves.

Water valves.

Load and vacuum valves (three ways).

pneumatic equipment:

Work banks with didactic panels for automatisms assembly.

Double and simple effect cylinders, maintenance unit, portable compressor, single stable and stable valves, piloted and servo-piloted, end of race, pulsators, indicators Optical, manometers, low pressure regulators, amplifiers One-and two-stage tyres, proximity pneumatic detectors, air barriers, pneumatic timers, sequence valves, manometers, pipes and connection elements. Handbooks, transparencies.

Electronic equipment:

Electrovalved monostable and bistable servo valves, end of race. Automatic plates with: push buttons, contactors, relays with delay to the connection and the disconnection. Power supplies. Inductive, capacitive, magnetic and optical proximity sensors. Cable set for mounts.

Work banks with didactic panels for oil-hydraulic circuit assembly.

Pressure groups

Simulation Room.

Machine Simulator that complies with the provisions of the STCW Code.

Classroom Maritime.

Security items in the job.

Detection and Fire Extinction Teams.

Rescue media.

Communications teams.

Sample Radiobaliza.

Sample radar responder.

Portable communications equipment.

Survival packages

Aula first aid.

Camilla.

Camilla.

cardiopulmonary resuscitation teams.

Immobilization teams.

Equipment of cures.

Portable oxygen equipment.

Practice maniquis.

and survival fight area.

hydrants.

Extintors.

Lanzas of different types.

Fireman teams.

Team ERA.

Fireboxes. (1)

Lifeguards.

Survival Trages.

Lifeguards.

Life Balsa.

Bote lifeguard. (1)

Rescue Bote not fast. (1)

Put systems afloat. (1)

(1) Unique equipment not necessarily located in or belonging to the training center.