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Last update: TAJ218 (27.01.2015)
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Last update: Macák Jan doc. Ing. CSc. (03.11.2015)
To understand the thermodynamic principles of energy transformation. To have cognisance of basic types of power systems. To handle the rules of water treatment and control of basic chemical regimes of power cycles. To have cognisance of negative impact of power industry on environment and the ways of its mitigation. |
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Last update: TAJ218 (27.01.2015)
Vošta J., Matějka Z., Macák J.: Energetika, VŠCHT Praha, 1999 Karapetijens M. CH.: Chemická termodynamika, ČSAV Praha, 1953 Karas F.: Úprava kotelní vody a čistota páry, SNTL Praha, 1965 Herbert H.Uhlig: Corrosion and Corrosion Control, A.Wiley Publ., N.Y., 1985 Hübner P.: Úprava vody v energetice, VŠCHT Praha, 2010 Jelínek a kol.: Desalinační a separační metody v úpravě vody, VŠCHT Praha, 2008
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Last update: TAJ218 (27.01.2015)
1. Energetics, kinds and sources of energies, energy conversion principles 2.1st law of thermodynamics, heat, work 3. 2nd law of thermodynamics, entropy 4. Carnot´s cycle, reversed Carnot´s, Clausius-Rankine, Brayton cycle 5. States of water and steam, equations, diagrams 6. Steam production, boilers, steam generators , 7. Water treatment for power cycles and industry 8. Ion exchange and membranes processes of water treatment 9. Corrosion and corrosion protection of energetic equipment 10. Cooling cycles in power engineering, make-up water treatment 11. Cooling to low temperatures, heat pumps 12. Power engineering facilities 13. Ecological impacts of energy production, renewable sources 14. Nuclear energy, principles, types of reactors |