
Detailed information 
Original study plan 
Master's programme Mechanical Engineering 2023W 
Objectives 
After successfully engaging with the topics of this course, students will be able to
 describe the physical meaning of the individual terms of the NavierStokes equations,
 comprehend the solution approach of classical examples of exact solutions of the NavierStokes equations and provide a physical interpretation of the results,
 comprhend the derivation of boundary layer equations and describe basic solutions of laminar boundary layer problems,
 explain the fundamentals of turbulent boundary layers,
 solve basic steady and transient heat conduction problems,
 estimate heat transfer due to forced and natural convection,
 conduct analytical calculations of flow and heat transfer problems.
The level of mathematical modeling and analysis of the mentioned topics is comparable to the level of the textbooks: White, Viscous Fluid FLow, 1991 und Baehr, Stephan, Wärme und Stoffübertragung, 2013.

Subject 
 basic equations (NavierStokes equations)
 exact solutions of NavierStokes equations
 boundarylayer theory
 heat conduction
 convective heat transfer

Criteria for evaluation 
Written assignment, written and/or oral exam

Methods 
Lecture by means of a script, development of practical examples

Language 
German 
Study material 
 H. Schlichting, K. Gersten: GrenzschichtTheorie, Springer Verlag, 1997.
 F. M. White: Viscous Fluid Flow, McGrawHill, 1991.
 M. Jischa: Konvektiver Impuls, Wärme und Stoffaustausch, Vieweg, 1982.
 H. D. Baehr, K. Stephan: Wärme und Stoffübertragung, Springer 2013.

Changing subject? 
No 
Further information 
none

Earlier variants 
They also cover the requirements of the curriculum (from  to) 481VMSSTFDK22: KV ThermoFluid Mechanics (2022W2023S) MEMPBKVTHFD: KV ThermoFluid Mechanics (2010W2022S)

