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Entropic Lattice Boltzmann Method for high Reynolds number fluid flows

Hui XuHui LuanG.H. TangW. Q. Tao

Year: 2009 Journal:   Progress in Computational Fluid Dynamics An International Journal Vol: 9 (3/4/5)Pages: 183-183   Publisher: Inderscience Publishers
DOI: 10.1504/pcfd.2009.024818
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Abstract

The Lattice Boltzmann Method (LBM) has emerged as a computationally efficient and increasingly popular numerical method for simulating complex fluid flow. However, the standard LBM has always suffered from severe numerical instability. In this paper, we mainly focus on Entropic Lattice Boltzmann Methods (ELBM) for high Reynolds number fluid flow. ELBM, which is derived from H-theorem, enhances the numerical stability of LBM. The compliance of ELBM with H-theorem makes ELBM much more stable than the standard LBM, but the computational cost increases because of solving a non-linear equation. We propose a new optimisation strategy to improve the efficiency of ELBM, and also implement some numerical tests to validate the computational stabilities and correctness.

Keywords:
Lattice Boltzmann methods Reynolds number Computational fluid dynamics Correctness Numerical stability Statistical physics Fluid dynamics Mechanics Computer science Applied mathematics Numerical analysis Hydrodynamic stability Instability Mathematics Mathematical optimization Physics Mathematical analysis Algorithm

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Topics

Lattice Boltzmann Simulation Studies
Physical Sciences →  Engineering →  Computational Mechanics
Fluid Dynamics and Turbulent Flows
Physical Sciences →  Engineering →  Computational Mechanics
Fluid Dynamics and Vibration Analysis
Physical Sciences →  Engineering →  Computational Mechanics

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