Code: BE1M14ESZ Power Machine Equipment
Lecturer: Ing. Ev¾en Thöndel Ph.D. Weekly load: 2+2c Assessment: Z,ZK
Department: 13114 Credits: 5 Semester: W
Description:
The course deals with the analysis of the basic functions and characteristics of machinery used in the energy sector, introduces students to quantitative and qualitative energy balances of these devices to an extent, allowing to obtain the technical basis for the economic evaluation, as well as operating system optimization. It also deals with the analysis of the impact of failures of machine elements of the power system to the technical indicators and economical operation and performance of the most important methods of control machinery of power plants in terms of their operational optimization.
Contents:
1. The basic types of cycles used in power engineering, energy balance, determine the basic operating parameters.
2. Qualitative evaluation of basic heat technical processes, thermal cycles in the energy sector.
3. Energy intensity in the transportation of liquids and gases, the working point, the energy regulatory assessment methods.
4. The steam turbine, basic principal, basic balance and output characteristics of the basic types of steam turbines.
5. Ways power control condensation and heat circulation. Turbine with controlled steam draw.
6. Condensation, cooling circuits, analysis of operating failures of condensation systems. Impact on the economy of operation of the unit.
7. Synergies and operational linkages and regulatory machinery in the most important energy systems.
8. Basic types of steam generators, energy balance, operating characteristics and modes of regulation.
9. Economic and ecological effects of cogeneration production, trends, "small cogeneration".
10. CCGT cycles, trends, possibilities and limits of use in the Central European region. Ecological effect.
11. Long-distance heat supply, operational issues, energy intensity.
12. The secondary circuit is, function analysis, operational and regulatory characteristics, safety and environmental issues.
13. Drain the energy in the energy, heat pumps, balances, operational capabilities and practical limits of applicability
14. Reserve