|
|
|
||
Lectures are focused on understanding basic principles of conversion of energy to heat and work. Both classical and alternative sources of energy are discussed. Different power engineering equipment (steam generator, turbine , condenser, cooling circuit) and overall design of conventinal and nuclear power stations is described and principles of conversion of chemical energy to thermal, mechanical and electrical energy are explained. As a part of conventional power engineering, corrosion control and water treatment is explained. Also, less common electricity generation and cooling processes such as fuel cells, thermocouples (Peltier) and Stirling engines. In seminars, focus is on combustion (heating values, flame temperature, percents of stoichiometric air) and water and steam thermodynamics (thermal and thermodynamic efficency, Mollier diagram).
Last update: Jelínek Luděk (22.01.2018)
|
|
||
Students will know: Principles of energy conversion (chemical, nuclear) into heat and work. Basic equipment in conventional and nuclear power engineering, types of steam generators. Thermodynamics of water and steam. Carnot, Rankine and Kalina cycles. Basic principles of water treatment for power engineering and corrosion protection. Environmental impact of power engineering.Alternative methods of conversion of chemical, heat and radiation energy to electrical energy. Principles of low temperature cooling and heat pump applications. Co-generation and tri-generation. Calculations of heat values, flame temperature, air excess coefficient, amount, composition and dew point of flue gas, enthalpy and consumption of steam, consumption of fuel, thermic and thermodynamic efficiency of Rankine cycle. Coefficient of performance of heat pump. Last update: Jelínek Luděk (23.01.2018)
|
|
||
Credit based on two credit tests or summary test Oral exam Last update: Jelínek Luděk (23.01.2018)
|
|
||
Z: J. Vošta, J. Macák, Z. Matějka Z.:Energetika, VŠCHT Praha, 1999, ISBN 978-80-7080-358-5 Z: E. Mištová, J. Macák, L. Jelínek: Energetika : návody k výpočtům, VŠCHT Praha, 2016, ISBN: 978-80-7080-946-4 D: F. Hrdlička: Průmyslová energetika, ČVUT Praha, 2004, ISBN: 978-80-01-02883-6 D: M. Libra, V. Poulek: Zdroje a využití energie, ČZU, Praha, 2007, ISBN: 978-80-213-1647-8 Last update: Mištová Eva (10.09.2024)
|
|
||
1. Energy sources – solar, water and wind 2. Energy sources – fossil fuels and biomass 3. Energy sources – nuclear and geothermal energy 4. Conversion of chemical energy to thermal 5. Phase changes and thermodynamics 6. Steam generation – boilers and steam generators 7. Conversion of thermal energy to mechanical 8. Conversion of mechanical energy to electrical 9. Electrical energy transport, electrical grid 10. Power engineering – district heating, power stations and co-generation 11. Nuclear power stations 12. Ecological impact of power generation 13. Cooling to low temperatures, heat pump 14. Direct conversion to electrical energy
Last update: Jelínek Luděk (22.01.2018)
|
|
||
http://web.vscht.cz/jelinekl/ZPE/ Last update: Jelínek Luděk (22.01.2018)
|
|
||
Fyzikální chemie I Last update: Jelínek Luděk (26.06.2023)
|
Teaching methods | ||||
Activity | Credits | Hours | ||
Konzultace s vyučujícími | 0.3 | 8 | ||
Účast na přednáškách | 1 | 28 | ||
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi | 1.7 | 48 | ||
Příprava na zkoušku a její absolvování | 1 | 28 | ||
Účast na seminářích | 1 | 28 | ||
5 / 5 | 140 / 140 |