Modifying and Reducing Numerical Dissipation in a Two-Dimensional Central-Upwind Scheme

Chi-Jer Yu; Chii-Tung Liu

doi:10.4208/aamm.10-m11142

Modifying and Reducing Numerical Dissipation in a Two-Dimensional Central-Upwind Scheme

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Abstract

This study presents a modification of the central-upwind Kurganov scheme for approximating the solution of the 2D Euler equation. The prototype, extended from a 1D model, reduces substantially less dissipation than expected. The problem arises from over-restriction of some slope limiters, which keep slopes between interfaces of cells to be Total-Variation-Diminishing. This study reports the defect and presents a re-derived optimal formula. Numerical experiments highlight the significance of this formula, especially in long-time, large-scale simulations.

Keywords:

Hyperbolic systems of conservation laws Godunov-type finite-volume methods central-upwind scheme Kurganov numerical dissipation anti-diffusion.

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DOI

10.4208/aamm.10-m11142

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[1]

2012. Modifying and Reducing Numerical Dissipation in a Two-Dimensional Central-Upwind Scheme. Advances in Applied Mathematics and Mechanics. 4, 3 (Apr. 2012), 340–353. DOI:https://doi.org/10.4208/aamm.10-m11142.

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