@Article{CiCP-30-1, author = {Wen-Qiang, Hu and Zhi-Hui, Li and Peng, Ao-Ping and Xin-Yu, Jiang}, title = {A Gas-Kinetic Unified Algorithm for Non-Equilibrium Polyatomic Gas Flows Covering Various Flow Regimes}, journal = {Communications in Computational Physics}, year = {2021}, volume = {30}, number = {1}, pages = {144--189}, abstract = {
In this paper, a gas-kinetic unified algorithm (GKUA) is developed to investigate the non-equilibrium polyatomic gas flows covering various regimes. Based on the ellipsoidal statistical model with rotational energy excitation, the computable modelling equation is presented by unifying expressions on the molecular collision relaxing parameter and the local equilibrium distribution function. By constructing the corresponding conservative discrete velocity ordinate method for this model, the conservative properties during the collision procedure are preserved at the discrete level by the numerical method, decreasing the computational storage and time. Explicit and implicit lower-upper symmetric Gauss-Seidel schemes are constructed to solve the discrete hyperbolic conservation equations directly. Applying the new GKUA, some numerical examples are simulated, including the Sod Riemann problem, homogeneous flow rotational relaxation, normal shock structure, Fourier and Couette flows, supersonic flows past a circular cylinder, and hypersonic flow around a plate placed normally. The results obtained by the analytic, experimental, direct simulation Monte Carlo method, and other measurements in references are compared with the GKUA results, which are in good agreement, demonstrating the high accuracy of the present algorithm. Especially, some polyatomic gas non-equilibrium phenomena are observed and analysed by solving the Boltzmann-type velocity distribution function equation covering various flow regimes.
}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.OA-2020-0122}, url = {https://global-sci.com/article/79564/a-gas-kinetic-unified-algorithm-for-non-equilibrium-polyatomic-gas-flows-covering-various-flow-regimes} }