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| Detailed information |
| Original study plan |
Master's programme Mechanical Engineering 2025W |
| Learning Outcomes |
Competences |
| Students are able to comprehend the derivation an meaning of the different terms in the Navier-Stokes equations and the boundary layer equations, to comprehend the theoretical basics of heat transfer, and to apply this knowledge to practical flow and heat transfer problems.
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| Skills |
Knowledge |
Specifically, they can
- describe the physical meaning of the individual terms of the Navier-Stokes equations (K2/3),
- comprehend the solution approach of classical examples of exact solutions of the Navier-Stokes equations and provide a physical interpretation of the results (K2/3),
- comprhend the derivation of boundary layer equations and describe basic solutions of laminar boundary layer problems (K2/3),
- explain the fundamentals of turbulent boundary layers (K2/3),
- solve steady and transient heat conduction problems (K3,4),
- estimate heat transfer due to forced and natural convection (K3,4),
- individually conduct analytical calculations of flow- and heat transfer problems (K5,6).
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- basic equations (Navier-Stokes equations)
- exact solutions of Navier-Stokes equations
- boundary-layer theory
- heat conduction
- convective heat transfer
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| Criteria for evaluation |
Written assignment, written and/or oral exam
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| Methods |
Lecture by means of a script, development of practical examples
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| Language |
German |
| Study material |
- H. Schlichting, K. Gersten: Grenzschicht-Theorie, Springer Verlag, 1997.
- F. M. White: Viscous Fluid Flow, McGraw-Hill, 1991.
- M. Jischa: Konvektiver Impuls-, Wärme- und Stoffaustausch, Vieweg, 1982.
- H. D. Baehr, K. Stephan: Wärme- und Stoffübertragung, Springer 2013.
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| Changing subject? |
No |
| Further information |
none
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| Earlier variants |
They also cover the requirements of the curriculum (from - to)
481VMSSTFDK22: KV Thermo-Fluid Mechanics (2022W-2023S)
MEMPBKVTHFD: KV Thermo-Fluid Mechanics (2010W-2022S)
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