Magnetohydrodynamics equations are adopted to simulate the process of spherical heavy gas explosion.Meanwhile,in order to ensure the divergence of magnetic field is zero in each step,we use the CTU--CT algorithm which is derived by 12-solve CTU algorithm.The results clearly show the process of spherical heavy gas physical explosion with the influence of magnetic field.In the non-ideal case,the droplet-like structure appears on the interface of the gas cluster.With the gas cluster being compressed,the instabilities are being restrained in the end.As can be seen from the results,resistance and ambipolar diffusion effect will hinder the influence of magnetic field on gas cluster,at the same time,the ambipolar diffusion effect will increase the scope of the magnetic pressure.%采用磁流体力学(magnetohydrodynamics,MHD)方程组对非理想情况下磁场对球形重质气体物理爆炸的作用过程进行数值模拟,同时,为了保证每一步中磁场散度为零,引入由12-solve CTU算法衍生出的CTU+CT算法.结果清晰地显示了重质气体团在磁场影响下的整个爆炸过程.在非理想情况下,爆炸过程中气体团界面产生液滴状结构,随着气体团被压缩,不稳定性现象最终得到抑制.从结果中看出,电阻和双极扩散效应会阻碍磁场对气体团的作用,同时,双极扩散效应还会增大磁压力的作用范围.
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