1. Energy: types, sources, transformations, evaluation.
2. Exergy and anergy. Evaluating diagrams.
3. Power engineering, consumption and reserves of energy. Waste energy, waste heat.
4. Co-generation.
5. Thermodynamic heating. Heat pumps.
6. Solar energy. Heat and photovoltaic conversion.
7. Water energy, hydropower stations. Hydro turbines. Tided water energy.
8. Wind energy.
9. Geothermal energy.
10. Magnetodynamic transform, thermoemission, thermoelectric transform.
11. Fuel cells. Hydrogen power engineering.
12. Basic principles of biomas energy utilization
13. Fuel cells. Hydrogen power engineering.
14. Magnetodynamic transform. Thermoemission, thermoelectric transform.
2. Exergy and anergy. Evaluating diagrams.
3. Power engineering, consumption and reserves of energy. Waste energy, waste heat.
4. Co-generation.
5. Thermodynamic heating. Heat pumps.
6. Solar energy. Heat and photovoltaic conversion.
7. Water energy, hydropower stations. Hydro turbines. Tided water energy.
8. Wind energy.
9. Geothermal energy.
10. Magnetodynamic transform, thermoemission, thermoelectric transform.
11. Fuel cells. Hydrogen power engineering.
12. Basic principles of biomas energy utilization
13. Fuel cells. Hydrogen power engineering.
14. Magnetodynamic transform. Thermoemission, thermoelectric transform.