| Study programme competencies |
| Code | Study programme competences |
| A57 | RA4C-Collecting and interpreting relevant data |
| A58 | RA5C-Identify ship components. |
| A59 | RA6C-Identify critical situations and use available means in order to resolve them effectively. |
| B31 | RA9H-Effectively solve practical problems associated with the subject by applying the knowledge acquired. |
| B33 | RA11H-Develop both individual and group work |
| B35 | RA13H-Handle with ease the tools, techniques, equipment and/or material/instrumental of each subject. |
| B53 | RA50H–Operate the remote controls of propulsion installations and machine systems and services |
| B61 | RA62H–Contributing to the safe operation of tanker and chemical tanker cargoes |
| B67 | RA68H–To contribute to the safe operation of liquefied gas tankers. |
| C15 | RA17X-Communicating effectively in a work environment. |
| C16 | RA18X-Reviewing compliance with maritime legislative requirements |
| C24 | RA32X–Ensuring compliance with pollution prevention requirements |
| C25 | RA33X–Maintaining the seaworthiness of the ship |
| Learning aims | |||
| Learning outcomes | Study programme competences | ||
| RA33X-Maintaining the seaworthiness of the ship | C25 |
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| RA5C-Identify ship components. | A58 |
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| RA4C-Collecting and interpreting relevant data | A57 |
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| RA6C-Identify critical situations and use available means in order to resolve them effectively. | A59 |
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| RA9H-Effectively solve practical problems associated with the subject by applying the knowledge acquired. | B31 |
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| RA11H-Develop both individual and group work | B33 |
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| RA13H-Handle with ease the tools, techniques, equipment and/or material/instrumental of each subject. | B35 |
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| RA50H-Operate the remote controls of propulsion installations and machine systems and services | B53 |
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| RA62H-Contributing to the safe operation of tanker and chemical tanker cargoes | B61 |
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| RA17X-Communicating effectively in a work environment. | C15 |
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| RA18X-Reviewing compliance with maritime legislative requirements | C16 |
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| RA32X-Ensuring compliance with pollution prevention requirements | C24 |
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| RA33X-Maintaining the seaworthiness of the ship | C25 |
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| RA68H-To contribute to the safe operation of liquefied gas tankers. | B67 |
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| Contents |
| Topic | Sub-topic |
| Introduction | Introduction. The ship. |
| Naval Construction | Materials science. Properties. Classification. Test. |
| Applied Thermodynamics | Principles of thermodynamics irreversibility. entropy. steam cycles gas cycles Psychrometric analysis of processes Refrigeration and air conditioning technology |
| Main Engine | Fundamental physical concepts on heat engines. Internal combustion engines. Steam turbines. Gas Turbines. Machine elements. electric propulsion Maintenance and inspection of equipment (oil analysis, water analysis...) Others: Outboard motors |
| Auxiliary equipments | Generadores térmicos. Sistemas hidráulicos y neumáticos Maquinaria de cubierta Tuberías Bombas Ventiladores y Compresores Válvulas Líneas de ejes Otros equipos auxiliares |
| Ship Systems | Hull services: Loading and unloading service, government service Mooring and anchoring service ballast service Drainage, flushing and fire fighting service Services of the propulsion installation: Fuel system Lubrication system Compressed air system Cooling sea water system fresh water service Engine room ventilation and exhaust system Boiler and steam feedwater system Electrical and electronic systems: Power generation system: Power plant of a ship Electronic and automatic systems (bridge equipment, introduction to sensorics, introduction to automatics) Other services: Oily water systems and incinerator Sewage treatment Greasing and lubrication Ventilation and air conditioning service (habilitation) Cooling system (Gambuza) LNG vessels; cargo containment system, BOG and Vapor control inert gas system gas washing system |
| Understanding of ship plans | Symbology Synoptic diagrams Plans of services in real ships |
| The development and overcoming of these contents, together with other matters that include the acquisition of specific competencies of the degree, guarantor or knowledge, understanding and sufficiency of the competencies collected in chart AII/2, of the STCW Agreement, related to the level of management of Primero Officer of the Merchant Marine Bridge, with no gross tonnage limitation and Merchant Marine Captain up to a maximum of 3000 GT. | Table A-II/2 of the STCW Agreement. Specification of the minimum competency standards applicable to Captains and first deck officers of ships with a gross tonnage equal to or greater than 3000 GT. |
| Planning | ||||
| Methodologies / tests | Competencies | Ordinary class hours | Student’s personal work hours | Total hours |
| Objective test | A57 A58 A59 B31 B67 C15 | 9 | 9 | 18 |
| Collaborative learning | A1 B2 B4 B33 B67 | 11 | 11 | 22 |
| Guest lecture / keynote speech | A10 A9 A2 A1 A12 A15 A22 A24 A25 A27 A30 A31 A32 A57 A58 A59 A62 B2 B4 B13 B40 B42 B53 B61 C15 C16 C24 C25 C27 C34 | 30 | 30 | 60 |
| Laboratory practice | A1 A10 A15 A22 A24 A25 A27 A30 A32 B2 B4 B13 B31 B35 B40 B42 B53 B61 C16 C24 C25 | 10 | 10 | 20 |
| Personalized attention | 30 | 0 | 30 | |
| (*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. | ||||
| Methodologies |
| Methodologies | Description |
| Objective test | Evaluation of knowledge and understanding of the basic contents of the subject, considering the abilities and skills of the student, their strategies and approaches in solving problems. The degree of evolution of the student and his ability to analyze, prosecute and solve specific problems will be valued expressly, requiring a balanced theoretical-practical training. |
| Collaborative learning | The most complex calculations will be solved in groups, during small group classes |
| Guest lecture / keynote speech | Explanation of theoretical contents for its later application to the reading of plans and laboratory practices |
| Laboratory practice | Workshop, special classrooms. Attendance and/or preparation of the memory/work sessions are mandatory |
| Personalized attention |
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| Assessment | |||
| Methodologies | Competencies | Description | Qualification |
| Laboratory practice | A1 A10 A15 A22 A24 A25 A27 A30 A32 B2 B4 B13 B31 B35 B40 B42 B53 B61 C16 C24 C25 | Continuous evaluation, taking into account the attitude and participation of the student and the degree of compliance reflected in the memory/report of the work carried out. Participate in a final 10% wool grade for wool subject. |
10 |
| Objective test | A57 A58 A59 B31 B67 C15 | Continuous evaluation based on objective tests throughout the course. In case of not following the continuous evaluation, an objective test will be carried out, which will consist of an exam divided into two parts. 1- Theoretical part: 50% of the final grade. 2- Practical part: 40% gives a final mark. To pass the subject, it will be necessary to pass both parts. |
90 |
| Assessment comments | |||
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The evaluation criteria included in tables A-III/1 and A-III/3 of the STCW Code, and collected in the Quality Assurance System, will be taken into account when designing and carrying out the evaluation. The students with recognition of part-time dedication and academic dispensation of attendance exemption, as established by the "RULE REGULATING THE STUDY REGIME FOR UNDERGRADUATE STUDENTS AT UDC (Arts. 2.3; 3.b; 4.3 and 7.5) ( 04/05/2017): You will have the right to take an objective test with the possibility of obtaining a 100% grade. On the other hand, the fraudulent performance of tests or assessment activities, once proven, will directly involve the grade of failure "0" in the subject in the corresponding call, thereby invalidating any qualification obtained in all assessment activities for the extraordinary call. The fraudulent completion of tests or assessment activities, once proven, will directly result in a "0" failing grade in the subject in the corresponding call, leaving the grade obtained in all assessment activities for the extraordinary call without effect . |
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| Sources of information |
| Basic |
Ángel M. Costa Rial y José A. Orosa García (2019). Apuntes de Sistemas Energétcios y Auxiliares del Buque. UDC
José A. Orosa García, Ángel M. Costa Rial, Rebeca Bouzón Otero, Stefan Kluj (2019). Servicios del BUque. Simulador de Máquinas. Cartamar
José A. Orosa García y José A. Pérez Rodríguez (2008). Termodinámica Aplicada con EES. Tórculo |
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| Complementary |
Knack C. ((1990)). Diesel motor ships engines and machiney. Institute of Marine Engineers
McGeorge ((1995)). Marine auxiliary machinery. Oxford |
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| Recommendations | ||||||
| Subjects that it is recommended to have taken before | ||||||
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| Subjects that are recommended to be taken simultaneously | |||
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| Subjects that continue the syllabus | ||||
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| Other comments | |