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Splitting algorithms in the finite volume method
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V.M. Kovenya
Published/Copyright:
October 9, 2014
Abstract
- To effectively solve the Euler equations in integral form, which are approximated by the finite volume method, we use splitting approach developed earlier for the solution of aerohyrodynamics problems. The constructed algorithms have a property of minimum dissipation and are efficient.
Published Online: 2014-10-9
Published in Print: 2002-4-1
© 2014 by Walter de Gruyter Berlin/Boston
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Articles in the same Issue
- Contents
- Momentumless turblent wake dynamics in a linearly stratified medium. The results of numerical experiments
- Far plane turbulent wake dynamics
- Numerical simulation of the interaction of a solitary wave with a partially immersed body
- Splitting algorithms in the finite volume method
- Analysis of quality of numerical grids produced by a comprehensive grid generator
- Compact difference schemes for elliptic equations with mixed derivatives on arbitrary grids
Articles in the same Issue
- Contents
- Momentumless turblent wake dynamics in a linearly stratified medium. The results of numerical experiments
- Far plane turbulent wake dynamics
- Numerical simulation of the interaction of a solitary wave with a partially immersed body
- Splitting algorithms in the finite volume method
- Analysis of quality of numerical grids produced by a comprehensive grid generator
- Compact difference schemes for elliptic equations with mixed derivatives on arbitrary grids
