Higher-order Galilean-invariant lattice Boltzmann model for microflows: single-component gas

We introduce a scheme which gives rise to additional degree of freedom for the same number of discrete velocities in the context of the lattice Boltzmann model. We show that an off-lattice D3Q27 model exists with correct equilibrium to recover Galilean-invariant form of Navier-Stokes equation (witho...

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Veröffentlicht in:	Physical review. E, Statistical, nonlinear, and soft matter physics Statistical, nonlinear, and soft matter physics, 2010-10, Vol.82 (4 Pt 2), p.046701-046701, Article 046701
Hauptverfasser:	Yudistiawan, Wahyu Perdana, Kwak, Sang Kyu, Patil, D V, Ansumali, Santosh
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container_end_page	046701
container_issue	4 Pt 2
container_start_page	046701
container_title	Physical review. E, Statistical, nonlinear, and soft matter physics
container_volume	82
creator	Yudistiawan, Wahyu Perdana Kwak, Sang Kyu Patil, D V Ansumali, Santosh
description	We introduce a scheme which gives rise to additional degree of freedom for the same number of discrete velocities in the context of the lattice Boltzmann model. We show that an off-lattice D3Q27 model exists with correct equilibrium to recover Galilean-invariant form of Navier-Stokes equation (without any cubic error). In the first part of this work, we show that the present model can capture two important features of the microflow in a single component gas: Knudsen boundary layer and Knudsen Paradox. Finally, we present numerical results corresponding to Couette flow for two representative Knudsen numbers. We show that the off-lattice D3Q27 model exhibits better accuracy as compared to more widely used on-lattice D3Q19 or D3Q27 model. Finally, our construction of discrete velocity model shows that there is no contradiction between entropic construction and quadrature-based procedure for the construction of the lattice Boltzmann model.
doi_str_mv	10.1103/PhysRevE.82.046701
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