1. Model reversible changes and state equation of ideal gas.
2. I.law of thermodynamics for close system (heat transfer, work, internal energy, enthalpy).
3. II.law of thermodynamics, entropy, diagram T-s and i-s, direct and reverse themal cycles, carnot cycle.
4. Comparative diagram of combustion engine thermal cycles. Ideal and real cycles.
5. Compressors.
6. Simplified calculation of real gases, Gas mixtures. Adiabatic mixing of gas.
7. Moist air a moist technical gases. Molier diagram.
8. Comparative diagram of gas turbine, Brayton cycle.
9. Carnotization of gas turbine cycle, real cycle of gas turbine, isoentropic efficiency of turbine and compressor.
10. Adiabatic flow of gases anf steams. Outlet velocity.
11. Thermal cycles of turboprop and turboshaft aircraft engines.
12. Thermal cycles of turbojet aircraft engines with and without afterburning.
13. Thermal cycles of turbofan aircraft engines.
14. Heat transfer, heat passage, bases of recuperative heat exchangers thermal calculation.
2. I.law of thermodynamics for close system (heat transfer, work, internal energy, enthalpy).
3. II.law of thermodynamics, entropy, diagram T-s and i-s, direct and reverse themal cycles, carnot cycle.
4. Comparative diagram of combustion engine thermal cycles. Ideal and real cycles.
5. Compressors.
6. Simplified calculation of real gases, Gas mixtures. Adiabatic mixing of gas.
7. Moist air a moist technical gases. Molier diagram.
8. Comparative diagram of gas turbine, Brayton cycle.
9. Carnotization of gas turbine cycle, real cycle of gas turbine, isoentropic efficiency of turbine and compressor.
10. Adiabatic flow of gases anf steams. Outlet velocity.
11. Thermal cycles of turboprop and turboshaft aircraft engines.
12. Thermal cycles of turbojet aircraft engines with and without afterburning.
13. Thermal cycles of turbofan aircraft engines.
14. Heat transfer, heat passage, bases of recuperative heat exchangers thermal calculation.