Description of the multi-dimensional finite volume solver EULER

Pavel Šolín; Karel Segeth

Applications of Mathematics (2002)

  • Volume: 47, Issue: 2, page 169-185
  • ISSN: 0862-7940

Abstract

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This paper is aimed at the description of the multi-dimensional finite volume solver EULER, which has been developed for the numerical solution of the compressible Euler equations during several last years. The present overview of numerical schemes and the explanation of numerical techniques and tricks which have been used for EULER could be of certain interest not only for registered users but also for numerical mathematicians who have decided to implement a finite volume solver themselves. This solver has been used also for the computation of numerical examples presented in [3].

How to cite

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Šolín, Pavel, and Segeth, Karel. "Description of the multi-dimensional finite volume solver EULER." Applications of Mathematics 47.2 (2002): 169-185. <http://eudml.org/doc/33111>.

@article{Šolín2002,
abstract = {This paper is aimed at the description of the multi-dimensional finite volume solver EULER, which has been developed for the numerical solution of the compressible Euler equations during several last years. The present overview of numerical schemes and the explanation of numerical techniques and tricks which have been used for EULER could be of certain interest not only for registered users but also for numerical mathematicians who have decided to implement a finite volume solver themselves. This solver has been used also for the computation of numerical examples presented in [3].},
author = {Šolín, Pavel, Segeth, Karel},
journal = {Applications of Mathematics},
keywords = {numerical software; computational fluid dynamics; compressible Euler equations; method of lines; approximate Riemann solver; numerical flux; 1D; quasi-1D; 2D; axisymmetric 3D; 3D; finite volume method; unstructured grid; implicit adaptive time integration; numerical software; computational fluid dynamics; compressible Euler equations; method of lines; approximate Riemann solver; numerical flux; 1D; quasi-1D; 2D; axisymmetric 3D; 3D; finite volume method; unstructured grid; implicit adaptive time integration},
language = {eng},
number = {2},
pages = {169-185},
publisher = {Institute of Mathematics, Academy of Sciences of the Czech Republic},
title = {Description of the multi-dimensional finite volume solver EULER},
url = {http://eudml.org/doc/33111},
volume = {47},
year = {2002},
}

TY - JOUR
AU - Šolín, Pavel
AU - Segeth, Karel
TI - Description of the multi-dimensional finite volume solver EULER
JO - Applications of Mathematics
PY - 2002
PB - Institute of Mathematics, Academy of Sciences of the Czech Republic
VL - 47
IS - 2
SP - 169
EP - 185
AB - This paper is aimed at the description of the multi-dimensional finite volume solver EULER, which has been developed for the numerical solution of the compressible Euler equations during several last years. The present overview of numerical schemes and the explanation of numerical techniques and tricks which have been used for EULER could be of certain interest not only for registered users but also for numerical mathematicians who have decided to implement a finite volume solver themselves. This solver has been used also for the computation of numerical examples presented in [3].
LA - eng
KW - numerical software; computational fluid dynamics; compressible Euler equations; method of lines; approximate Riemann solver; numerical flux; 1D; quasi-1D; 2D; axisymmetric 3D; 3D; finite volume method; unstructured grid; implicit adaptive time integration; numerical software; computational fluid dynamics; compressible Euler equations; method of lines; approximate Riemann solver; numerical flux; 1D; quasi-1D; 2D; axisymmetric 3D; 3D; finite volume method; unstructured grid; implicit adaptive time integration
UR - http://eudml.org/doc/33111
ER -

References

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  1. ODEPACK, A systematized collection of ODE solvers, In: Scientific Computing (IMACS Transactions on Scientific Computation Volume 1), North-Holland, Amsterdam, 1983, pp. 55-64. (1983) MR0751604
  2. A description of DDASSL: A differential/algebraic system solver, Sandia Report No. Sand 82-8637, Sandia National Laboratory, Livermore, CA, 1982. (1982) MR0751605
  3. Application of the method of lines to compressible flow (Computational aspects), Proceedings of the 10th PANM Seminar, Lázně Libverda, 2000, Mathematical Institute of the Academy of Sciences of the Czech Republic, Praha, 2000. (Czech) (2000) 
  4. Application of the method of lines to the nonstationary compressible Euler equations, Internat. J. Numer. Methods Fluids, Submitted. 
  5. On the method of lines (Application in fluid dynamics and a-posteriori error estimation), Doctoral dissertation, Faculty of Mathematics and Physics, Charles University, Prague, 1999. (1999) 
  6. Three-dimensonal Euler equations and their numerical solution by the finite volume method, Master thesis (Part  1), Faculty of Mathematics and Physics, Charles University, Prague, 1996. (1996) 

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