Analytical solutions of the lattice Boltzmann BGK model |
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| Authors: | Qisu Zou Shuling Hou Gary D. Doolen |
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| Affiliation: | (1) Center for Nonlinear Studies and Theoretical Division, Los Alamos National Laboratory, 87545 Los Alamos, New Mexico;(2) Department of Mathematics, Kansas State University, 66506 Manhattan, Kansas;(3) Department of Mechanical Engineering, Ransas State University, 66506 Manhattan, Kansas |
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| Abstract: | ![]()
Analytical solutions of the two-dimensional triangular and square lattice Boltzmann BGK models have been obtained for the plane Poiseuille flow and the plane Couette flow. The analytical solutions are written in terms of the characteristic velocity of the flow, the single relaxation time  , and the lattice spacing. The analytic solutions are the exact representation of these two flows without any approximation. Using the analytical solution, it is shown that in Poiseuille flow the bounce-back boundary condition introduces an error of first order in the lattice spacing. The boundary condition used by Kadanoffet al. in lattice gas automata to simulate Poiseuille flow is also considered for the triangular lattice Boltzmann BGK model. An analytical solution is obtained and used to show that the boundary condition introduces an error of second order in the lattice spacing. |
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| Keywords: | Lattice Boltzmann methods analytical solution channel flow Couette flow |
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