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Teaching GuideTerm Higher Technical University College of Nautical Science and Naval Engines |
| Grao en Tecnoloxías Mariñas |
 Subjects |
| Energy Techniques Applied to Ship |
| Contents |
| Identifying Data | 2019/20 | |||||||||||||
| Subject | Energy Techniques Applied to Ship | Code | 631G02453 | |||||||||||
| Study programme |
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| Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
| Graduate | 1st four-month period |
Fourth | Optional | 6 | ||||||||||
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| Topic | Sub-topic |
| 1.ENERGY AND EXERCETICAL ANALYSIS OF THERMAL INSTALLATIONS | 1.1. Introduction. 1.2. Thermodynamics. Development of energy balance. 1.3. Fundamentals of the concept of exergy. 1.4. Balance of energy and exergy at steady state. 1.5. Application of energetic and exergetic analysis to nozzles, diffusers, turbines, compressors, pumps, heat exchangers and throttling devices. 1.6. Analysis of transitory conditions. |
| 2. MASS TRANSFER PROCESSES | 2.1. Introduction. 2.2. Fundamentals of the transfer of matter. 2.3. Principles of diffusion. 2.4. Non-diffusing stationary diffusion. 2.5. DiffusioN in mixtures of several components. Turbulent diffusion. 2.6. Transfer of mass by convection. 2.7. Absorption with chemical reaction. |
| 3. STUDY OF COMBUSTION PROCESSES | 3.1. Introdución. 3.2. O servizo de combustible nos buques. 3.2.1. Propiedades físicas e químicas dos combustibles. 3.3. O proceso de combustión. 3.4. Reaccións de combustión. 3.5. Composición dos gases producidos na combustión. 3.6. Punto de orballo dos gases. 3.7. Optimización do proceso de combustión. 3.8. Diagnose da combustión. 3.9. Aspectos enerxéticos da combustión. |
| 4. PROCESSES WITH HEAT TRANSFER | 4.1. Introduction. 4.2. Thermotransmission. 4.3. Balance of energy on a surface. 4.4. Analysis of heat transfer problems. Methodology. 4.5. Boiling and condensation. 4.6. Heat exchangers. 4.7. Simultaneous heat and mass transfer |
| 5. ENERGY ANALYSIS OF PROPULSION SYSTEMS | 5.1. Introduction. 5.2. Thermal cycles 5.3. Thermal performance and thermal balance of marine installations. 5.4. Propulsion with nuclear energy 5.5 Balances in marine cogeneration facilities. 5.6. Balances in marine refrigeration and air conditioning installations. 5.7. Exergetic analysis of the facilities. |
| 6. ALTERNATIVE SYSTEMS OF ENERGETIC USE | 6.1. Introduction. 6.2. Fuel cells. 6.3. Residues of biomass. 6.4. Wind systems for propulsion and energy use. 6.5. Solar energy utilization systems. 6.6. Use of residual energies 6.7. Recovery of VOCs 6.8. Reforming |
| 7. AUDIT, PLANNING AND ENERGY ORGANIZATION OF THERMAL FACILITIES | 7.1. Introduction. 7.2. Use of energy 7.3. Material means for the energy audit. 7.4. The data collection and calculations. 7.5. Improvement of the performance and maintenance of the optimal operating conditions of the energy equipment. 7.6. Inspection and review of equipment |
| 8. ENERGY EFFICIENCY IN SHIPS | 8.1. Introduction. 8.2. Energy Efficiency Management Plan for ships (SEEMP). 8.3. Energy Efficiency Index design. 8.4. Operational Indicator of Energy Efficiency. 8.5. Application regulations |
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