1. Introduction, purpose of refrigeration systems and heat pums.
2. Methods of generation low temperatures, basic theory of refrigeration cycles.
3. Compressor vapor cycle one-stage.
4. Binary mixtures. Heat transfer fluids.
5. Refrigerants - solving tools.
6. Properties of basic types of refrigerants.
7. Other types of compressor refrigeration cycles – ejector, variants of two-stage cycles, cascade cycles.
8. Sorption cycles – absorption NH3-H2O, H2O-LiBr, adsorption cycles
9. Gas refrigeration cycles
10. Air liquefaction, rectification
11. Basic mechanical components of refrigeration equipment and heat pump
12. Heat pums – types.
13. Heat pumps, connecting to space heating system, assessment of heat pump - auxiliary energy source energy balance
14. Evaluation of the effectiveness of basic types of heat pumps – energy, exergy and macroenergetic
2. Methods of generation low temperatures, basic theory of refrigeration cycles.
3. Compressor vapor cycle one-stage.
4. Binary mixtures. Heat transfer fluids.
5. Refrigerants - solving tools.
6. Properties of basic types of refrigerants.
7. Other types of compressor refrigeration cycles – ejector, variants of two-stage cycles, cascade cycles.
8. Sorption cycles – absorption NH3-H2O, H2O-LiBr, adsorption cycles
9. Gas refrigeration cycles
10. Air liquefaction, rectification
11. Basic mechanical components of refrigeration equipment and heat pump
12. Heat pums – types.
13. Heat pumps, connecting to space heating system, assessment of heat pump - auxiliary energy source energy balance
14. Evaluation of the effectiveness of basic types of heat pumps – energy, exergy and macroenergetic