Thermodynamics
Niveau
First cycle, Bachelor
Learning outcomes of the courses/module
The students are able to:
• Explain the basic principles and laws of thermodynamics.
• Understand the use of principles and laws for the design of machinery and equipment.
• Explain the procedure for the evaluation and comparison of real processes on the basis of comparison processes.
• Apply the principles and laws of thermodynamics to concrete problems (evaluation/design).
• Apply the principles and laws to machines and plants.
• Mathematically analyze and evaluate real processes on the basis of comparative processes.
• Explain the basic principles and laws of thermodynamics.
• Understand the use of principles and laws for the design of machinery and equipment.
• Explain the procedure for the evaluation and comparison of real processes on the basis of comparison processes.
• Apply the principles and laws of thermodynamics to concrete problems (evaluation/design).
• Apply the principles and laws to machines and plants.
• Mathematically analyze and evaluate real processes on the basis of comparative processes.
Prerequisites for the course
not applicable
Course content
• Main theorems of thermodynamics
• Equation of state and change of state of ideal gases
• Cyclic processes
• Water and steam
• Thermal machines
• Heat transfer, combustion
• Equation of state and change of state of ideal gases
• Cyclic processes
• Water and steam
• Thermal machines
• Heat transfer, combustion
Recommended specialist literature
Cerbe, Wilhelms (2013): Technische Thermodynamik: Theoretische Grundlagen und
praktische Anwendungen, 17. Aufl., Carl Hanser Verlag München
Baehr (2005): Thermodynamik: Grundlagen und technische Anwendungen, 12. Aufl.,
Springer
Vieweg Verlag Wiesbaden
Doering, Schedwill, Dehli (2012): Grundlagen der technischen Thermodynamik, 7. Aufl.,
Springer Vieweg Verlag Wiesbaden
Berties (1996): Übungsbeispiele aus der Wärmelehre, 20. Aufl., Fachbuchverlag Leipzig
praktische Anwendungen, 17. Aufl., Carl Hanser Verlag München
Baehr (2005): Thermodynamik: Grundlagen und technische Anwendungen, 12. Aufl.,
Springer
Vieweg Verlag Wiesbaden
Doering, Schedwill, Dehli (2012): Grundlagen der technischen Thermodynamik, 7. Aufl.,
Springer Vieweg Verlag Wiesbaden
Berties (1996): Übungsbeispiele aus der Wärmelehre, 20. Aufl., Fachbuchverlag Leipzig
Assessment methods and criteria
Final presentation (20 %) and final exam (80 %)
Language
German
Number of ECTS credits awarded
4.5
Share of e-learning in %
20
Semester hours per week
3.0
Planned teaching and learning method
integrated Lecture
Semester/trimester in which the course/module is offered
3
Name of lecturer
Michael Petke, BSc, MA
Academic year
Second year of studies
Key figure of the course/module
vzING3
Type of course/module
integrated lecture
Type of course
Compulsory
Internship(s)
not applicable