Artificial Viscosity Splitting Strategy in Lagrangian Algorithm for Two-dimensional Three-temperature Radiation Magnetohydrodynamics

CHINESE JOURNAL OF COMPUTATIONAL PHYSICS ›› 2015, Vol. 32 ›› Issue (4): 379-385.

Artificial Viscosity Splitting Strategy in Lagrangian Algorithm for Two-dimensional Three-temperature Radiation Magnetohydrodynamics

Research Center for Magnetic Driven Fusion, Institute of Applied Physics and Computational Mathematics, Beijing 100088, China

Received:2014-07-07 Revised:2015-01-30 Online:2015-07-25 Published:2015-07-25

Abstract

Abstract: An artificial viscosity splitting strategy for Lagrangian algorithm of two-dimensional three-temperature radiation magnetohydrodynamics is proposed to solves unphysical pinnacle problem in ion temperature around shock wave as edge viscosity and tensor viscosity are used. The strategy divides kinetic ernergy dissipated by artificial viscosity between electron interior energy and ion interior energy according to ratio of electron pressure and ion pressure. It is realized in two-dimensional three-temperature radiation magnetohydrodynamics code MARED and is used to simulate imploding process of Z-pinch. Unphysical pinnacle in ion temperature around shock wave is removed.

Key words: two-dimensional three-temperature radiation magnetohydrodynamics, edge viscosity, tensor viscosity, artificial viscosity splitting strategy

CLC Number:

O241

DAI Zihuan, WU Jiming, DING Ning. Artificial Viscosity Splitting Strategy in Lagrangian Algorithm for Two-dimensional Three-temperature Radiation Magnetohydrodynamics[J]. CHINESE JOURNAL OF COMPUTATIONAL PHYSICS, 2015, 32(4): 379-385.

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Artificial Viscosity Splitting Strategy in Lagrangian Algorithm for Two-dimensional Three-temperature Radiation Magnetohydrodynamics

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