Improved Weighted Essentially Non-Oscillatory Schemes by Mixed Stencils

Improved Weighted Essentially Non-Oscillatory Schemes by Mixed Stencils

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摘要 Improved Weighted Essentially Non-oscillatory Scheme is a high order finite volume method. The mixed stencils can be obtained by a combination of r + 1 order and r order stencils. We improve the weights by the mapping method. The restriction that conventional ENO or WENO schemes only use r order stencils, is removed. Higher resolution can be achieved by introducing the r + 1 order stencils. This method is verified by three cases, i.e. the interaction of a moving shock with a density wave problem, the interacting blast wave problem and the double mach reflection problem. The numerical results show that the Improved Weighted Essential Non-oscillatory method is a stable, accurate high-resolution finite volume scheme. Improved Weighted Essentially Non-oscillatory Scheme is a high order finite volume method. The mixed stencils can be obtained by a combination of r + 1 order and r order stencils. We improve the weights by the mapping method. The restriction that conventional ENO or WENO schemes only use r order stencils, is removed. Higher resolution can be achieved by introducing the r + 1 order stencils. This method is verified by three cases, i.e. the interaction of a moving shock with a density wave problem, the interacting blast wave problem and the double mach reflection problem. The numerical results show that the Improved Weighted Essential Non-oscillatory method is a stable, accurate high-resolution finite volume scheme.

作者 Shaogang Guo Wang Li Shaogang Guo;Wang Li(Beijing Institute of Control Engineering, Beijing, China)

机构地区 Beijing Institute of Control Engineering

出处《Open Journal of Fluid Dynamics》 2021年第3期153-165,共13页 流体动力学（英文）

关键词 Finite Volume Method WENO Schemes WEIGHTS Shock Stencils HIGH-RESOLUTION Finite Volume Method WENO Schemes Weights Shock Stencils High-Resolution

分类号 O17 [理学—基础数学]

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参考文献3

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Open Journal of Fluid Dynamics

2021年第3期

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Improved Weighted Essentially Non-Oscillatory Schemes by Mixed Stencils

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