- Fundamentals of thermodynamic analyses; definition of system and process
- The first law of thermodynamics as law of energy conservation
- The second law of thermodynamics and its consequences for processes in energy technologies
- The exergy concept
- Thermodynamic properties as fundamentals for calculations in energy and process technologies
- Power and refrigeration cycles as typical representatives for applications in energy technologies
- Properties of simple mixtures; mixtures of ideal gases and humid air as examples
- Combustion processes as example for chemical reactions
- Energy balances for processes involving chemical reactions
- Fundamentals of heat transfer
- The first law of thermodynamics as law of energy conservation
- The second law of thermodynamics and its consequences for processes in energy technologies
- The exergy concept
- Thermodynamic properties as fundamentals for calculations in energy and process technologies
- Power and refrigeration cycles as typical representatives for applications in energy technologies
- Properties of simple mixtures; mixtures of ideal gases and humid air as examples
- Combustion processes as example for chemical reactions
- Energy balances for processes involving chemical reactions
- Fundamentals of heat transfer
- Lecturer: Beckmueller Robert
- Lecturer: Schneider Nico
- Lecturer: Span Roland
- Lecturer: Thol Monika