Analytical solution for the lattice Boltzmann model beyond Naviers-Stokes

Jianping Meng; Yonghao Zhang

doi:10.4208/aamm.10-10S09

Analytical solution for the lattice Boltzmann model beyond Naviers-Stokes

Jianping Meng, Yonghao Zhang

Mechanical And Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

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Abstract

To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model with first-order expansion of the equilibrium distribution function is analytically investigated. In particular, the velocity profile of Couette flows is exactly obtained for the D2Q9 model, which shows retaining the first order expansion can capture rarefaction effects in the incompressible limit. Meanwhile, it clearly demonstrates that the D2Q9 model is not able to reflect flow characteristics in the Knudsen layer.

Original language	English
Pages (from-to)	670-676
Number of pages	6
Journal	Advances in Applied Mathematics and Mechanics
Volume	2
Issue number	5
Early online date	13 Jul 2010
DOIs	https://doi.org/10.4208/aamm.10-10S09
Publication status	Published - 31 Oct 2010

Keywords

lattice boltzmann method
rarefied gas dynamics
micro flows
knudsen layer

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10.4208/aamm.10-10S09

strathprints026948.pdfAccepted author manuscript, 80.2 KB

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title = "Analytical solution for the lattice Boltzmann model beyond Naviers-Stokes",

abstract = "To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model with first-order expansion of the equilibrium distribution function is analytically investigated. In particular, the velocity profile of Couette flows is exactly obtained for the D2Q9 model, which shows retaining the first order expansion can capture rarefaction effects in the incompressible limit. Meanwhile, it clearly demonstrates that the D2Q9 model is not able to reflect flow characteristics in the Knudsen layer.",

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N2 - To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model with first-order expansion of the equilibrium distribution function is analytically investigated. In particular, the velocity profile of Couette flows is exactly obtained for the D2Q9 model, which shows retaining the first order expansion can capture rarefaction effects in the incompressible limit. Meanwhile, it clearly demonstrates that the D2Q9 model is not able to reflect flow characteristics in the Knudsen layer.

AB - To understand lattice Boltzmann model capability for capturing nonequilibrium effects, the model with first-order expansion of the equilibrium distribution function is analytically investigated. In particular, the velocity profile of Couette flows is exactly obtained for the D2Q9 model, which shows retaining the first order expansion can capture rarefaction effects in the incompressible limit. Meanwhile, it clearly demonstrates that the D2Q9 model is not able to reflect flow characteristics in the Knudsen layer.

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Analytical solution for the lattice Boltzmann model beyond Naviers-Stokes

Abstract

Keywords

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Novel multi-relaxation time order models for Lattice Bolztman Simulation of Gas Flows

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Analytical solution for the lattice Boltzmann model beyond Naviers-Stokes

Abstract

Keywords

Access to Document

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Novel multi-relaxation time order models for Lattice Bolztman Simulation of Gas Flows

Cite this