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W2058446543 abstract "Recently, kinetic theory-based lattice Boltzmann (LB) models have been developed to model nonequilibrium gas flows. Depending on the order of quadratures, a hierarchy of LB models can be constructed which we have previously shown to capture rarefaction effects in the standing-shear wave problems. Here, we further examine the capability of high-order LB models in modeling nonequilibrium flows considering gas and surface interactions and their effect on the bulk flow. The Maxwellian gas and surface interaction model, which has been commonly used in other kinetic methods including the direct simulation Monte Carlo method, is used in the LB simulations. In general, the LB models with high-order Gauss-Hermite quadratures can capture flow characteristics in the Knudsen layer and higher order quadratures give more accurate prediction. However, for the Gauss-Hermite quadratures, the present simulation results show that the LB models with the quadratures obtained from the even-order Hermite polynomials perform significantly better than those from the odd-order polynomials. This may be attributed to the zero-velocity component in the odd-order discrete set, which does not participate in wall and gas collisions, and thus underestimates the wall effect." @default.
W2058446543 created "2016-06-24" @default.
W2058446543 creator A5002311435 @default.
W2058446543 creator A5068912722 @default.
W2058446543 date "2011-03-11" @default.
W2058446543 modified "2023-10-10" @default.
W2058446543 title "Gauss-Hermite quadratures and accuracy of lattice Boltzmann models for nonequilibrium gas flows" @default.
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W2058446543 doi "https://doi.org/10.1103/physreve.83.036704" @default.
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