Subject description - BD1M14SSE
Summary of Study |
Summary of Branches |
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List of Roles |
Explanatory Notes
Instructions
| BD1M14SSE | Machinery and Structures of Power Plants | ||
|---|---|---|---|
| Roles: | P | Extent of teaching: | 14KP+6KC |
| Department: | 13114 | Language of teaching: | CS |
| Guarantors: | Completion: | Z,ZK | |
| Lecturers: | Credits: | 5 | |
| Tutors: | Semester: | Z | |
Web page:
https://moodle.fel.cvut.cz/courses/BD1M14SSEAnotation:
The aim of the course is to acquaint students with forms of energy transformation in power plants, describing the function of power facilities, their structure, properties and characteristics.Course outlines:
| 1. | Balance of energy conversion chains in power engineering | |
| 2. | Thermodynamics of real gases and vapours, computational charts and programs | |
| 3. | Thermodynamic power cycles, possibility of efficiency increasing | |
| 4. | Steam turbines for classical and nuclear power stations, structures, characteristics, function | |
| 5. | Combustion turbines and microturbines, structures, characteristics, function | |
| 6. | Heat exchangers and steam generators | |
| 7. | Hydrodynamics of real turbines | |
| 8. | Conduit (pipelines) systems | |
| 9. | Models and function of boiler (steam generator) | |
| 10. | Combined gas-vapour power cycles | |
| 11. | Turbines for hydraulic power stations, characteristics, function for different heads of water and installed powers | |
| 12. | Characteristics of auxiliary equipment (hydraulic pumps, valves, hydraulic servomechanisms) | |
| 13. | Machinery components of disperse sources | |
| 14. | Modern combustion systems and ecology |
Exercises outline:
| 1. | Heat transfer and work in thermal processes | |
| 2. | Processes in water steam, application of thermal diagrams | |
| 3. | Qualitative evaluation of most important energetic transformation | |
| 4. | Work , power and thermal efficiency of steam turbines cycles, regulation of the power | |
| 5. | Work , power and thermal efficiency of gas turbines | |
| 6. | Heat exchanger behaviour in thermodynamic power cycles | |
| 7. | Calculation of velocities and pressures in hydraulic systems with losses | |
| 8. | Characteristics of hydraulic systems for fluid and gas transport | |
| 9. | Basic types boilers behaviour, regulation of the power | |
| 10. | Calculation of work, power and thermal efficiency of gas-vapour power cycles | |
| 11. | Energy balance of basic types water turbines, cavitation | |
| 12. | Operational point of the pump, hydraulic system regulation, energy saving due to speed regulation | |
| 13. | Basic calculation of wind engine | |
| 14. | Clean coal technology, balance of gas-vapour power cycle Vřesová |
Literature:
| 1. | Moran, M.,J., Shapiro, H.,N.: Fundamentals of Engineering Thermodynamics. Wiley, 2008. | |
| 2. | Cengel,Z., Boles, M.,A.: Thermodynamics An Engineering Approach. McGraw-Hill, 2005. | |
| 3. | Aungier, R.,H.: Turbine Aerodynamics. ASME, 2006. |
Requirements:
Subject is included into these academic programs:| Program | Branch | Role | Recommended semester |
| MKEEM2_2018 | Electrical Power Engineering | P | 1 |
| MKEEM1_2018 | Electrical Drives | P | 1 |
| MKEEM4_2018 | Management of Power Engineering and Electrical Engineering | P | 1 |
| MKEEM3_2018 | Technological Systems | P | 1 |
| Page updated 10.11.2025 12:51:59, semester: L/2026-7, L/2024-5, Z/2025-6, Z/2026-7, L/2025-6, Send comments about the content to the Administrators of the Academic Programs | Proposal and Realization: I. Halaška (K336), J. Novák (K336) |