Winter Semester 2010/11
Winter Semester 2011/12
Winter Semester 2012/13
Engineering Thermodynamics MBMSO3023
Course content:
1. Basic principles of Thermodynamics.
2. First Law of Thermodynamics.
3. Perfect gases and basic processes.
4. Second Law of Thermodynamics
5. Thermodynamics of wet vapour
6. Selected gas nad vapour cycles
7. Thermodynamics of fluid flow
8. Thermodynamics of mixtures and moist air
9. Basic principles of Heat Transfer
10. Basic principles of theory of combustion
Learning outcomes:Knowledge of basic principles of Technical Thermodynamics; ability to analyse of energy conversion processes
(in Polish) Rodzaj przedmiotu
(in Polish) Wymagania
(in Polish) Założenia (prorekwizyty)
Course coordinators
Learning outcomes
Knowledge of basic notions and principles of Thermodynamics. Student is able to analyse the typical energy conversion processes.
Assessment criteria
Lecture: written examination with 3 problems. Students are proivided with the examination problems by the lecturer during the lectures. The score to receive the credit with this course is 50%.
Calculation exercies: two tests covering two calculation problems each; the score to receive the credit with this course is 50%.
Laboratory: attendance in all lab courses; written reports for each lab course; written test with 5 problems chosen from the topics list delivered by the lecturer. Students are proivided with the examination problems by the lecturer during the lectures. The score to receive the credit with this course is 50%.
Receving the credits for lecture, calculation exercises and project are independent.
Practical placement
Not planned.
Bibliography
a) basic references:
Cengel Y.A.: Thermodynamics: An Engineering Approach, McGraw-Hill, 2005.
Eastop T.D., McConkey A.: Applied Thermodynamics for Engineering Technologists, Longman Scientific and Technical, 1993.
b) supplementary references:
Stoecker W.F., Jones J.W.: Refrigeration and Air Conditioning, McGraw-Hill, 1982.
Dincer I.: Refrigeration Systems and Applications, Wiley, 2003.