| Preventing numerical oscillations in the flux-split based finite difference method for compressible flows with discontinuities |
| He ZW; Zhang YS; Li XL(李新亮); Li L; Tian BL; Tian, BL (reprint author), Inst Appl Phys & Computat Math, Lab Computat Phys, Beijing 100094, Peoples R China.
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发表期刊 | JOURNAL OF COMPUTATIONAL PHYSICS
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| 2015-11-01
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卷号 | 300页码:269-287 |
ISSN | 0021-9991
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摘要 | In simulating compressible flows with contact discontinuities or material interfaces, numerical pressure and velocity oscillations can be induced by point-wise flux vector splitting (FVS) or component-wise nonlinear difference discretization of convection terms. The current analysis showed that the oscillations are due to the incompatibility of the point-wise splitting of eigenvalues in FVS and the inconsistency of component-wise nonlinear difference discretization among equations of mass, momentum, energy, and even fluid composition for multi-material flows. Two practical principles are proposed to prevent these oscillations: (i) convective fluxes must be split by a global FVS, such as the global Lax-Friedrichs FVS, and (ii) consistent discretization between different equations must be guaranteed. The latter, however, is not compatible with component-wise nonlinear difference discretization. Therefore, a consistent discretization method that uses only one set of common weights is proposed for nonlinear weighted essentially non-oscillatory (WENO) schemes. One possible procedure to determine the common weights is presented that provided good results. The analysis and methods stated above are appropriate for both single- (e.g., contact discontinuity) and multi-material (e.g., material interface) discontinuities. For the latter, however, the additional fluid composition equation should be split and discretized consistently for compatibility with the other equations. Numerical tests including several contact discontinuities and multi-material flows confirmed the effectiveness, robustness, and low computation cost of the proposed method. (C) 2015 Elsevier Inc. All rights reserved. |
关键词 | Compressible Flows
Contact Discontinuity
Material Interface
Numerical Oscillations
Finite Difference Method
Flux Vector Splitting
Weno
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DOI | 10.1016/j.jcp.2015.07.049
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URL | 查看原文
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收录类别 | SCI
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语种 | 英语
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WOS记录号 | WOS:000361573200015
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关键词[WOS] | ESSENTIALLY NONOSCILLATORY SCHEMES
; RICHTMYER-MESHKOV INSTABILITY
; SHOCK-CAPTURING SCHEMES
; MIXTURE TYPE ALGORITHM
; GODUNOV-TYPE SCHEMES
; MULTICOMPONENT FLOW
; HIGH-ORDER
; EFFICIENT IMPLEMENTATION
; CONTACT DISCONTINUITIES
; MULTIMATERIAL FLOWS
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WOS研究方向 | Computer Science
; Physics
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WOS类目 | Computer Science, Interdisciplinary Applications
; Physics, Mathematical
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项目资助者 | This work was supported by CAEP under Grant No. 2012A020210, NSFC under Grant Nos. 11171037, 91130021, 11472059, 11372330, 11472278 and Key Lab Foundation under Grant No. 9140C690104150C69.
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课题组名称 | LHD可压缩湍流
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论文分区 | 一类
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引用统计 |
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文献类型 | 期刊论文
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条目标识符 | http://dspace.imech.ac.cn/handle/311007/58415
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专题 | 高温气体动力学国家重点实验室
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通讯作者 | Tian, BL (reprint author), Inst Appl Phys & Computat Math, Lab Computat Phys, Beijing 100094, Peoples R China. |
推荐引用方式 GB/T 7714 |
He ZW,Zhang YS,Li XL,et al. Preventing numerical oscillations in the flux-split based finite difference method for compressible flows with discontinuities[J]. JOURNAL OF COMPUTATIONAL PHYSICS,2015,300:269-287.
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APA |
He ZW,Zhang YS,李新亮,Li L,Tian BL,&Tian, BL .(2015).Preventing numerical oscillations in the flux-split based finite difference method for compressible flows with discontinuities.JOURNAL OF COMPUTATIONAL PHYSICS,300,269-287.
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MLA |
He ZW,et al."Preventing numerical oscillations in the flux-split based finite difference method for compressible flows with discontinuities".JOURNAL OF COMPUTATIONAL PHYSICS 300(2015):269-287.
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