Boundary conditions for gas flow problems from anisotropic scattering kernels - Archive ouverte HAL
Article Dans Une Revue Journal of Mathematical Physics Année : 2015

Boundary conditions for gas flow problems from anisotropic scattering kernels

Résumé

The paper presents an interface model for gas flowing through a channel constituted of anisotropic wall surfaces. Using anisotropic scattering kernels and Chapman Enskog phase density, the boundary conditions (BCs) for velocity, temperature, and discontinuities including velocity slip and temperature jump at the wall are obtained. Two scattering kernels, Dadzie and Méolans (DM) kernel, and generalized anisotropic Cercignani-Lampis (ACL) are examined in the present paper, yielding simple BCs at the wall fluid interface. With these two kernels, we rigorously recover the analytical expression for orientation dependent slip shown in our previous works [Pham et al., Phys. Rev. E 86, 051201 (2012) and To et al., J. Heat Transfer 137, 091002 (2015)] which is in good agreement with molecular dynamics simulation results. More important, our models include both thermal transpiration effect and new equations for the temperature jump. While the same expression depending on the two tangential accommodation coefficients is obtained for slip velocity, the DM and ACL temperature equations are significantly different. The derived BC equations associated with these two kernels are of interest for the gas simulations since they are able to capture the direction dependent slip behavior of anisotropic interfaces.
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Dates et versions

hal-01236663 , version 1 (02-12-2015)

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Citer

Quy-Dong To, Van-Huyen Vu, Guy Lauriat, Céline Léonard. Boundary conditions for gas flow problems from anisotropic scattering kernels. Journal of Mathematical Physics, 2015, 56 (10), pp.103101. ⟨10.1063/1.4933223⟩. ⟨hal-01236663⟩
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