Course syllabus - Applied Thermodynamics
Scope
7.5 credits
Course code
ERA102
Valid from
Autumn semester 2014
Education level
First cycle
Progressive Specialisation
G1F (First cycle, has less than 60 credits in first-cycle course/s as entry requirements).
Main area(s)
Energy Engineering
School
School of Business, Society and Engineering
Ratified
2013-09-02
Revised
2014-02-03
Literature lists
Course literature is preliminary up to 8 weeks before course start. Course literature can be valid over several semesters.
-
Moran's principles of engineering thermodynamics : SI Version
Global Edition : Wiley, 2018 - 701 pages
ISBN: 9781119454069 LIBRIS-ID: 2bbgzwkv07vpj72d
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Books
Principles of Engineering Thermodynamics, 8th Edition SI Version
John Wiley & Sons, 2015 - 888 s.
ISBN: 9781118960882 LIBRIS-ID: 17719898
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Books
Principles of engineering thermodynamics
7th ed., SI version : Hoboken, N.J. : Wiley, cop. 2012. - xiii, 928 s.
ISBN: 978-0-470-91801-2 (pbk.) LIBRIS-ID: 12447337
Objectives
The course aims to provide the fundamental knowledge about applied thermodynamics needed for further study in engineering programs. The course will cover the basic concept, laws, principles and important applications in processes for energy conversion.
Learning outcomes
After completing the course the student should be able to:
1. understand the first and second Law of thermodynamics
2. perform calculations for both closed and open systems regarding all types of thermodynamic processes
3. perform thermodynamic calculations for different cycles, such as Carnot cycle, Brayton cycle, Rankine cycle, the Otto and Diesel cycle and the refrigerating/heat pump cycle
4. perform thermodynamic calculations for gas mixtures including moist air
5. simplify a complex problem and apply knowledge of thermodynamics to solve the problem and to find the reasonable solution
6. model the energy balance and analyze the thermodynamic performance of energy systems
7. in collaboration with other study plans, execute laboratory activities and report results of experiments to illustrate the thermodynamic phenomena
Course content
First law of thermodynamics, state parameters, heat, work. Ideal gases, ideal gas equation of state, state changes.
Cycles, heat engine, refrigeration/heat pump. Carnot cycle. Second law of thermodynamics, entropy, isentropic efficiency. Exergy.
Cycle performance, gas turbine cycle (Brayton cycle), steam turbine cycle (Rankine cycle), Otto and diesel engine. Gas mixtures and psychrometry.
Tuition
Lectures, calculation exercises and laboratory work.
Examination
Assignment (INL1), 1 credit, grade Pass (G)
Laboratory work (LAB1), 0.5 credits, grade Pass (G)
Examination (TEN1), 6 credits, grades 3, 4 or 5
A student who has a certificate from MDU regarding a disability has the opportunity to submit a request for supportive measures during written examinations or other forms of examination, in accordance with the Rules and Regulations for Examinations at First-cycle and Second-cycle Level at Mälardalen University (2020/1655). It is the examiner who takes decisions on any supportive measures, based on what kind of certificate is issued, and in that case which measures are to be applied.
Suspicions of attempting to deceive in examinations (cheating) are reported to the Vice-Chancellor, in accordance with the Higher Education Ordinance, and are examined by the University’s Disciplinary Board. If the Disciplinary Board considers the student to be guilty of a disciplinary offence, the Board will take a decision on disciplinary action, which will be a warning or suspension.
Grade
Pass with distinction, Pass with credit, Pass, Fail
Interim Regulations and Other Regulations
The course overlaps 7,5 credits with WER020 Applied Thermodynamics.