High-order targeted essentially non-oscillatory scheme for two-fluid plasma model

被引:0
作者
Yuhang Hou
Ke Jin
Yongliang Feng
Xiaojing Zheng
机构
[1] Northwestern Polytechnical University,School of Aeronautics
[2] Northwestern Polytechnical University,Institute of Extreme Mechanics
[3] Shaanxi Key Laboratory of Space Extreme Detection,Research Center for Applied Mechanics
[4] Xidian University,undefined
来源
Applied Mathematics and Mechanics | 2023年 / 44卷
关键词
plasma; high-order scheme; targeted essentially non-oscillatory (TENO) scheme; two-fluid model; O341; O346.1; 74B05; 74R10;
D O I
暂无
中图分类号
学科分类号
摘要
The weakly ionized plasma flows in aerospace are commonly simulated by the single-fluid model, which cannot describe certain nonequilibrium phenomena by finite collisions of particles, decreasing the fidelity of the solution. Based on an alternative formulation of the targeted essentially non-oscillatory (TENO) scheme, a novel high-order numerical scheme is proposed to simulate the two-fluid plasmas problems. The numerical flux is constructed by the TENO interpolation of the solution and its derivatives, instead of being reconstructed from the physical flux. The present scheme is used to solve the two sets of Euler equations coupled with Maxwell’s equations. The numerical methods are verified by several classical plasma problems. The results show that compared with the original TENO scheme, the present scheme can suppress the non-physical oscillations and reduce the numerical dissipation.
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页码:941 / 960
页数:19
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