摘要
针对守恒型磁流体力学方程组(MHD)和流体力学方程组(HD)通量项不同特点,提出 了一种能够采用无振荡、无自由参数(NND)格式离散MHD方程组的通量分裂方法,并首先 在一维模型方程中验证了方法的可行性,进一步全三维离散了MHD方程组,在轴对称盔形磁 场位形太阳风流动的数值试验中,选取46个太阳半径(R_s)的计算域,基本能够反映行星际 空间物理参数在径向有大到8~9个量级变化的特点.计算结果表明针对气动力学跨音速流动 的NND格式可以推广到磁流体力学方程组中,并有很好的稳定性.
A flux vector splitting method, combined with Non-free parameter and Non-oscillation Difference scheme (NND) and constructed for magnetohydrodynamics (MHD ) equations with the consideration of difference between the flux vector of magnetohydrodynamics equations and that of Euler equations, is presented. First, it is tested to be effective on one-dimensional model equations, which include one for steady-state problem and one for time-variation problem. The numerical results agree very well with those of the exact solutions. Second, it is introduced in detail that how the flux vector splitting method combined with the NND scheme could be applied into the discretion of three-dimensional MHD equations and how the magnetic field is treated to reduce the effect of Lorentz force error caused by numerical non-zero magnetic divergence. In order to study the effectiveness of the algorithm, an example of solar wind flow in a helmet structure magnetic field is taken and the computation is carried out on a large domain (r: 1~ 46R_s) with a coarse mesh (mesh in radial direction: 46 points) to reflect the large variation of solar wind parameters in the interplanetary space. After iterating about 7000 steps on a PC586, the numerical variables begin to remain a steady state, the solution is smooth and spiral magnetic field, which agrees with interplanetary observation, appears.
出处
《力学学报》
EI
CSCD
北大核心
2001年第3期301-308,共8页
Chinese Journal of Theoretical and Applied Mechanics
基金
国家自然科学基金资助项目(49990453
49925412).
