phy603 - Fluid Dynamics - Campusmanagementsystem Stud.IP

Module label	Fluid Dynamics
Modulkürzel	phy603
Credit points	6.0 KP
Workload	180 h ( Attendance: 84 hrs, Self study: 96 hrs )
Institute directory	Institute of Physics
Verwendbarkeit des Moduls	Master's Programme Engineering Physics (Master) > Advanced Physics
Zuständige Personen	Peinke, Joachim (module responsibility) Avila Canellas, Kerstin (Prüfungsberechtigt) Lukassen, Laura (Prüfungsberechtigt) Peinke, Joachim (Prüfungsberechtigt)
Prerequisites
Skills to be acquired in this module	Fundamental knowledge and comprehension on the movement of fluids
Module contents	Fluid Dynamics I: Basic equations: Navier-Stokes-equation, Continuity- equation, Bernoulli- equation; Vortex- equation { and Energy balance equations; laminar ows and stability analysis; exact solutions, application of basic equations Fluid Dynamics II: Reynolds-equation, "closing problem" of turbulence: Turbulence models: Cascade models, Stsochastic models
Literaturempfehlungen	J. Spurk, N. Aksel: Fluid Mechanics, Springer D. J. Tritton: Physical Fluid dynamics. Clarendon Press, Oxford, 2003 G. K. Batchelor: An introduction to fluid dynamics. Cambridge University Press, Cambridge, 2002 U. Frisch: Turbulence: the legacy of A. N. Kolmogorov. Cambridge University Press, Cambridge, 2001 J. Mathieu, J. Scott: An introduction to turbulent ow. Cambridge University Press, Cambridge, 2000 P.A. Davidson: turbulence Oxford 2004
Links
Language of instruction	English
Duration (semesters)	1 Semester
Module frequency
Module capacity	unlimited
Reference text	Unterrichtssprache: English. German on demand, if no international students participate

Examination	Prüfungszeiten	Type of examination
Final exam of module		KL

Lehrveranstaltungsform	Lecture
SWS	4
Frequency	SoSe oder WiSe

Top