Article Dans Une Revue Mathematics of Computation Année : 2025

Equilibrium boundary conditions for vectorial multi-dimensional lattice Boltzmann schemes

Résumé

The concept of equilibrium is a general tool to fill the gap between macroscopic and mesoscopic information, both within kinetic systems and kinetic schemes. This work explores the use of equilibria to devise numerical boundary conditions for multi-dimensional vectorial lattice Boltzmann schemes tackling systems of hyperbolic conservation laws. In the scalar case, we prove convergence for schemes with monotone relaxation to the weak entropy solution by Bardos, Leroux, and Nédelec [Commun. Partial Differ. Equ., 4 (9), 1979], following the path by Crandall and Majda [Math. Comput., 34, 149 (1980)]. Numerical experiments are conducted both for scalar and vectorial problems, and demonstrate the effectiveness of equilibrium boundary conditions in capturing significant physical phenomena.

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hal-05065001 , version 1 (20-05-2025)

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Denise Aregba-Driollet, Thomas Bellotti. Equilibrium boundary conditions for vectorial multi-dimensional lattice Boltzmann schemes. Mathematics of Computation, In press. ⟨hal-05065001⟩
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