Analysis and Implementation of the Gas-kinetic Bgk Scheme for Computational Gas Dynamics

Gas-kinetic schemes based on the BGK model are proposed as an alternative evolution model which can cure some of the limitations of current Riemann solvers. To analyse the schemes, simple advection equations are reconstructed and solved using the gas-kinetic BGK model. Results for gas-dynamic application are also presented. The ®nal ̄ux function derived in this model is a combination of a gas-kinetic Lax±Wendroff ̄ux of viscous advection equations and kinetic ̄ux vector splitting. These two basic schemes are coupled through a non-linear gas evolution process and it is found that this process always satis®es the entropy condition. Within the framework of the LED (local extremum diminishing) principle that local maxima should not increase and local minima should not decrease in interpolating physical quantities, several standard limiters are adopted to obtain initial interpolations so as to get higher-order BGK schemes. Comparisons for well-known test cases indicate that the gas-kinetic BGK scheme is a promising approach in the design of numerical schemes for hyperbolic conservation laws. # 1997 by John Wiley & Sons, Ltd.