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Teaching GuideTerm Higher Technical University College of Nautical Science and Naval Engines |
| Grao en Tecnoloxías Mariñas |
 Subjects |
| Heat transfer and steam generators |
| Contents |
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| Identifying Data | 2022/23 | |||||||||||||
| Subject | Heat transfer and steam generators | Code | 631G02353 | |||||||||||
| Study programme |
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| Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
| Graduate | 1st four-month period |
Third | Optional | 6 | ||||||||||
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| Topic | Sub-topic |
| PART I.- INTRODUCTION. 1.- PRESENTATION. |
1.1.- IMPORTANCE OF THE HEAT TRANSFER IN STEAM GENERATORS. 2.1.- OBJECTIVES AND RELATION WITH OTHER SUBJECTS AND PROFESSIONAL CAREER. |
| PART II.- HEAT TRANSFER. CHAPTER 2.-INTRODUCTION. |
1.2.-ENERGY MODES. HEAT. THERMAL AND VOLUMETRICL PROPERTIES. 2.2.- HEAT TRANSFER MODES. |
| CHAPTER 3.- CONDUCTION HEAT TRANSFER. | 1.3.- GENERAL EQUIATION OF CONDUCTION HEAT TRANSFER. 2.3.- ONE DIEMNSIONAL, STADY STATE CONDUCTION WITH NO HEAT GENERATION. 3.3.- ONE DIEMNSIONAL, STADY STATE CONDUCTION WITH HEAT GENERATION. 4.3.- FIN HEAT TRANSFER. 5.3.- MULTIDIMENSIONAL, STADY STATE CONDUCTION. APROXIMATE METHODS. |
| CHAPTER 4.- CONVECTION HEAT TRANSFER. | 1.4.-.KEY CONCEPTS. 2.4.-.DIFFERENTIAL EQUATIONS OF CONSERVATION. 3.4.- FORCED CONVECTION COEFFICIENT. 4.4.- NATURAL CONVECTION COEFFICIENT. 5.4.- CONVECTION WITH PHASE CHANGE. CONDENSATION. 6.4.- CONVECTION WITH PHASE CHANGE. BOILING. |
| CHAPTER 5.- RADIATION HEAT TRANSFER | 1.5.- KEY CONCEPTS. 2.5.- BLACK BODY RADIATION. 3.5.- RADIATION HEAT TRANSFER BETWEEN BLACK SURFACES. 4.5.- DIFFUSE-GRAY SURFACES. 5.5.- RADIATION IN GASES |
| PART III.- DESCRIPTION OF BOILERS. CHAPTER 6.- INTRODUCTION. |
1.6.- KEY CONCEPTS AND DEFINITIONS. 2.6.- STEAM BOILERS CLASSIFICATION. |
| CHAPTER 7.- WATER CIRCULATION IN BOILERS. | 1.7.- INTRODUCTION. 2.7.- RECIRCULATION BOILERS. 3.7.- FORCED CIRCULATION BOILERS. |
| CHAPTER 8.- CLASSIFICATION ACCORDING TO THE BOILER DESIGN. | 1.8.- CYLINDRICAL. 2.8.- FIRETUBE. 3.8.- WATERTUBE. 4.8.- SPECIAL BOILERS. |
| CHAPTER 9.- CLASSIFICATION OF FURNACES ACCORDING TO THE USED FUEL | 1.9.- CLASSIFICATION. 2.9.- SOLID FUEL FURNACES. 3.9.- LIQUID FUEL FURNACES. 4.9.- GAS FUEL FURNACES. |
| CHAPTER 10.- WATER-STEAM SYSTEM | 1.10.- INTRODUCTION. 2.10.- ECONOMIZER. 3.10.- STEAM DRUM. 4.10.- VAPORIZER WALLS. 5.10.- SUPERHEATER AND REHEATER. 6.10.- SOOTBLOWERS. |
| CHAPTER 11.- AIR-FLUEGAS SYSTEM. | 1.11.- INTRODUCTION. 2.11.- DRAUGHT. FANS AND STACKS. 3.11.- AIR PREHEATER. 4.11.- SOOT REMOVAL SYSTEMS. |
| CHAPTER 12.- NUCLEAR ENERGY FOR STEAM GENERATION | 1.12.- APPLICATIONS. 2.12.- NUCLEAR FUEL. 3.12.- REACTOR. 4.12.- REACTORS FOR STEAM GENERATION. 5.12.- STEAM GENERATORS. |
| PART IV.- WATER TREATMENT AND COMBUSTION. CHAPTER 13.- BOILER WATER PROBLEMS. |
1.13.- FOAMING AND CARRYOVER. 2.13.- SCALE AND MUD. 3.13.- WATER SIDE CORROSION. |
| CHAPTER 14.-WATER TREATMENT FOR STEAM GENERATION. | 1.14.- CHEMICAL CHARACTERISTICS OF WATER BOILER. 2.14.- EXTERNAL TREATMENT. MAKE-UP AND CONDENSATE. 3.14.- INTERNAL TREATMENT. |
| CHAPTER 15.- COMBUSTION FUNDAMENTALS. | 1.15.- INTRODUCTION. 2.15.- STOICHIOMETRY OF COMBUSTION 3.15.- ANALISYS OF COMBUSTION AND BOILER EFFICIENCY. |
| The previous topics fulfil with the column 2, "Knowledge, understanding and proficiency", of the Manila amendments to the STCW Code, of the following Table: (see sub-topics) The competences acquisition established in Column 1 of the respective STCW Table, are completed with the overcoming of the contents included in the following complementary subjects to this one: Internal Combustion Engines. Steam and Gas Turbines. Heat Transfer and Steam Boilers. Maritime Installations and Propulsion. Automatization of Maritime Installations Practical traineeship on board |
1.- Table A-III/1 of Specification of minimum standard of competence for officers in charge of an engineering watch in a manned engine-room or designated duty engineers in a periodically unmanned engine-room Function: Marine engineering at operational level Competences -1.1 Maintain a safe engineering watch -1.2 Operate main and auxiliary machinery and associated control systems |
| The development and overcoming of these contents, together with those corresponding to other subjects that include the acquisition of specific competencies of the degree, guarantees the knowledge, comprehension and sufficiency of the competencies contained in Table AIII / 2, of the STCW Convention, related to the level of management of First Engineer Officer of the Merchant Navy, on ships without power limitation of the main propulsion machinery and Chief Engineer officer of the Merchant Navy up to a maximum of 3000 kW. | Table A-III / 2 of the STCW Convention. Specification of the minimum standard of competence for Chief Engineer Officers and First Engineer Officers on ships powered by main propulsion machinery of 3000 kW or more. |
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