Difference between revisions of "FEMCFD20"
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- We are going to use [https://ngsolve.org NGSolve]: Tutorials: [https://ngsolve.org/docu/latest/i-tutorials/index.html i-Tutorials], You can also install [https://ngsolve.org/docu/latest/install/usejupyter.html Jupyter notebook], and use the tutorials [http://ngsolve.org/iFEM/iFEM.zip iFEM.zip] by starting iFEM.ipynb | - We are going to use [https://ngsolve.org NGSolve]: Tutorials: [https://ngsolve.org/docu/latest/i-tutorials/index.html i-Tutorials], You can also install [https://ngsolve.org/docu/latest/install/usejupyter.html Jupyter notebook], and use the tutorials [http://ngsolve.org/iFEM/iFEM.zip iFEM.zip] by starting iFEM.ipynb | ||
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==== Additional literature ==== | ==== Additional literature ==== |
Revision as of 14:30, 5 October 2020
Lecture every Tuesday and Wednesday starting at 16:00
Subject of course
- Definition of the Navier-Stokes and Euler equations
- Theory of saddle point problems
- Finite element methods for the Stokes equations
- (H)DG methods
- Discretization of konvection (diffusion) equations (DG, SUPG, Least squares)
- Discretization of the Navier-Stokes equations
- Discretization of the Euler equations
- Riemann solvers
Notes on lecture and exercise
- Lecture notes: Are in preparation and will be updated during the lecture. The actual version can be found here: https://nemesis.asc.tuwien.ac.at/index.php/s/qEJzzDPQ2EpiXnM
- We are going to use NGSolve: Tutorials: i-Tutorials, You can also install Jupyter notebook, and use the tutorials iFEM.zip by starting iFEM.ipynb
Additional literature
Jean Donea and Antonio Huerta: Finite Element Methods for Flow Problems
Richard H. Pletcher, John C. Tannehull and Dale A. Anderson: Computational Fluid Mechanics and Heat Transfer