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Evolution Galerkin schemes applied to two-dimensional Riemann problems for the wave equation system
Citation Link: https://doi.org/10.15480/882.130
Publikationstyp
Working Paper
Date Issued
2003-03
Sprache
English
Institut
TORE-DOI
The subject of this paper is a demonstration of the accuracy and robustness of evolution Galerkin schemes applied to two-dimensional Riemann problems with finitely many constant states. In order to have a test case with known exact solution we consider a linear first order system for the wave equation and test evolution Galerkin methods as well as other commonly used schemes with respect to their accuracy in capturing important structural phenomena of the solution. For the two-dimensional Riemann problems with finitely many constant states some parts of the exact solution are constructed in the following three steps. Using a self-similar transformation we solve the Riemann problem outside a neighborhood of the origin and then work inwards. Next a Goursant-type problem has to be solved to describe the interaction of waves up to the sonic circle. Inside it a system of composite elliptichyperbolic type is obtained, which may not always be solvable exactly. There an interesting local maximum principle can be shown. Finally, an exact partial solution is used for numerical comparisons.
Subjects
genuinely multidimensional schemes
hyperbolic systems
wave equation
Euler equations
evolution Galerkin schemes
DDC Class
510: Mathematik
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