Designing an efficient solution strategy for fluid flows. I: A stable high order finite difference scheme and sharp shock resolution for the Euler equations (Q675145)
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scientific article; zbMATH DE number 987975
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Designing an efficient solution strategy for fluid flows. I: A stable high order finite difference scheme and sharp shock resolution for the Euler equations |
scientific article; zbMATH DE number 987975 |
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Designing an efficient solution strategy for fluid flows. I: A stable high order finite difference scheme and sharp shock resolution for the Euler equations (English)
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9 November 1998
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A possible strategy for solving the compressible Euler or Navier- Stokes equations is presented. As parts of the strategy, the authors introduce high-order centered approximations applied to the symmetrized governing system of equations and ensuring the stability of the resulting schemes. To remove spurious oscillations near shocks, artificial dissipation is added in shock regions. For detection those regions and subsequent refining local meshes, the wavelet technique is suggested and described in detail. Numerical results illustrating good resolution properties of the method are presented.
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Navier-Stokes equations
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centered approximations
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artificial dissipation
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wavelet technique
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stability
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0.9333092
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0.89884233
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0.87727314
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0.8750514
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0.87176704
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