期刊
JOURNAL OF COMPUTATIONAL PHYSICS
卷 473, 期 -, 页码 -出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcp.2022.111738
关键词
Well -balancing; Positivity -preserving; Surface reconstructions; Shallow water equations; Entropy conditions
This paper introduces a surface reconstruction (SR) scheme for shallow water equations with a nonconservative product source term. The SR scheme is used to define the intermediate water depth and the bottom topography on the cell boundaries while maintaining their monotone property. The discretization of the nonconservative product term is achieved using a family of paths in phase space, leading to a more accurate approximation of the source term. A non-oscillatory monotone-preserving reconstruction method is introduced to achieve second-order accuracy. The SR scheme satisfies the semi-discrete and fully-discrete entropy inequalities, preserves stationary solutions, ensures nonnegativity of the water depth, and exhibits efficiency in computing shallow water flows over a step.
We aim to introduce surface reconstruction (SR) schemes for shallow water equations with a nonconservative product source term. The SR scheme is used to define the intermediate water depth and the bottom topography on the cell boundaries. The key ingredient of the SR scheme is to smooth the water surface level or the bottom topography while maintaining their the monotone property. The discretization of the integral of the nonconservative product term is established with the aid of a family of pathes chosen in the phase space. The discretized source term is closer to the exact one. For obtaining a second-order accuracy, we introduce a non-oscillatory monotone-preserving reconstruction method. We establish the conditions of the SR scheme for obtaining the semi-discrete and fully-discrete entropy inequalities and prove that the introduced SR scheme can maintain the stationary solutions and guarantee the water depth to be nonnegative. Several numerical results of the one-and two-dimensional shallow water equations confirm that the SR scheme can preserve the stationary state, the positivity of the water depth, and is efficient when computing the shallow water flows over a step.(c) 2022 Elsevier Inc. All rights reserved.
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