The course deals with current numerical methods for Computational Fluid Dynamics. The emphasis is placed on explicit finite volume methods for the compressible Euler equations. Moreover outlooks on implicit methods, the extension to the Navier-Stokes equations and turbulence modelling are given. Additional topics are classical numerical methods for the solution of the incompressible Navier-Stokes equations, Aeracoustics and high order numerical methods for the solution of systems of partial differential equations. The last day is dedicated to parallelization of explicit and implicit solvers.
Hands-on sessions will manifest the contents of the lectures. The emphasis of these session is put on the application of CFD codes, especially on grid generation, visualization and the interpretation of results. Furthermore the implementation of algorithms presented in the lectures points up the general structure of CFD codes.
The course is organized by the HLRS, the IAG and the University of Kassel. It is based on the course "Numerical Gasdynamics" held at the IAG which has been awarded the "Landeslehrpreis (prize for excellence in teaching) Baden-Württemberg 2003" (held at Uni. Stuttgart, under auspices of the BMBF project NUSS, contract 08NM227).
see link to detailed program
Prof. Dr.-Ing. Sabine Roller (GRS), Dr. Philipp Birken (Uni. Kassel), Dr. Albert Ruprecht (IHS), Dipl.-Ing. Steffen Bogdanski (IAG), Florian Hindenlang (IAG), Andreas Stock (IAG), Andrea Beck (IAG), Muhammed Atak (IAG), http://www.mathematik.uni-kassel.de/~meister/ Prof. Dr. Andreas Meister (Uni. Kassel), and Dr. Rolf Rabenseifner (HLRS).
for registration is Mar. 17, 2012 (extended deadline)
Students without Diploma/Master: 40 EUR
Students with Diploma/Master (PhD students) at German universities: 80 EUR
Members of German universities and public research institutes: 80 EUR
Members of other universities and public research institutes: 120 EUR
Others: 400 EUR
(includes food and drink at coffee breaks, will be collected on the first day of the course, cash only)
Basics of partial differential equations and physics, programming experience in Fortran or C
Not yet available