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A family of finite volume Eulerian–Lagrangian methods for two-dimensional conservation laws

Benkhaldoun, F.; Sari, S.; Seaid, M.

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Authors

F. Benkhaldoun

S. Sari



Abstract

We develop a family of finite volume Eulerian–Lagrangian methods for the solution of nonlinear conservation laws in two space dimensions. The proposed approach belongs to the class of fractional-step procedures where the numerical fluxes are reconstructed using the modified method of characteristics, while an Eulerian method is used to discretize the conservation equation in a finite volume framework. The method is simple, accurate, conservative and it combines advantages of the modified method of characteristics to accurately solve the nonlinear conservation laws with an Eulerian finite volume method to discretize the equations. The proposed finite volume Eulerian–Lagrangian methods are conservative, non-oscillatory and suitable for hyperbolic or non-hyperbolic systems for which Riemann problems are difficult to solve or do not exist. Numerical results are presented for an advection–diffusion equation with known analytical solution. The performance of the methods is also analyzed on several applications in Burgers and Buckley–Leverett problems. The aim of such a method compared to the conventional finite volume methods is to solve nonlinear conservation laws efficiently and with an appropriate level of accuracy.

Citation

Benkhaldoun, F., Sari, S., & Seaid, M. (2015). A family of finite volume Eulerian–Lagrangian methods for two-dimensional conservation laws. Journal of Computational and Applied Mathematics, 285, 181-202. https://doi.org/10.1016/j.cam.2015.02.014

Journal Article Type Article
Acceptance Date Dec 14, 2014
Publication Date Sep 1, 2015
Deposit Date Nov 30, 2015
Publicly Available Date Mar 29, 2024
Journal Journal of Computational and Applied Mathematics
Print ISSN 0377-0427
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 285
Pages 181-202
DOI https://doi.org/10.1016/j.cam.2015.02.014
Keywords Finite volume method, Modified method of characteristics, Eulerian–Lagrangian schemes, Conservation laws, Convection–diffusion problems.

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