EL HASSANIEH, Chourouk; RIGAL, Mathieu; SAINTE-MARIE, Jacques

Metadatos

Licencia de uso del documento

http://creativecommons.org/licenses/by-sa/

EL HASSANIEH, Chourouk
Laboratoire Jacques-Louis Lions [LJLL (UMR_7598)]
Numerical Analysis, Geophysics and Ecology [ANGE]

RIGAL, Mathieu
Équipe EDP et Physique Mathématique

SAINTE-MARIE, Jacques
Laboratoire Jacques-Louis Lions [LJLL (UMR_7598)]
Numerical Analysis, Geophysics and Ecology [ANGE]

Idioma

Document de travail - Pré-publication

Este ítem está publicado en

2023-03-28

Resumen en inglés

Explicit (in time) kinetic schemes applied to the nonlinear shallow water equations have been extensively studied in the past. The novelty of this paper is to investigate an implicit version of such methods in order to improve their stability properties. In the case of a flat bathymetry we obtain a fully implicit kinetic solver satisfying a discrete entropy inequality and keeping the water height non negative without any restriction on the time step. Remarkably, a simplified version of this nonlinear implicit scheme allows to express the update explicitly which we implement in practice. The case of varying bottoms is then dealt with through an iterative solver combined with the hydrostatic reconstruction technique. We show that this scheme preserves the water height non-negativity under a CFL condition and satisfies a discrete entropy inequality without error term, which is an improvement over its explicit version. An extension of the implicit and iterative methods to the two dimensional case is also discussed. Finally we perform some numerical validations underlining the advantages and the computational cost of our strategy.< Leer menos

Palabras clave en inglés

Shallow water equations

Kinetic solver

Fully discrete entropy inequality

Well-balanced schemes

Hydrostatic reconstruction

Orígen

Importado de Hal

Centros de investigación

Institut de Mathématiques de Bordeaux (IMB) - UMR 5251