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增强高超声速化学反应流数值计算的稳定性方法 被引量:1

A Method for Improving the Stability of Numerical Calculation in Hypersonic Chemically Reacting Flows
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摘要 针对高超声速化学反应流数值模拟中包含源项对角化雅可比矩阵的数值格式稳定性很差的问题,在对采用上下对称的高斯-赛德尔(LU-SGS)格式的离散方程进行线性稳定性分析的基础上,提出一种依据流动状态对流场的块网格进行局部加密的方法,以增强流场数值计算稳定性。在高超声速流场中,对包含激波后亚声速高温区域的块网格给予加密,而其他区域中的块网格可以适当进行网格粗化或保持不变。算例结果表明,相比于初始网格,局部加密后的改进网格并不会产生过多的网格量,而且能够采用较大的柯朗-弗里德里奇-列维(CFL)数以达到数值求解过程中稳定计算和快速收敛的目的。 In numerical simulations of hypersonic flows with chemical reactions, the stability of the numerical scheme including the diagonalized Jacobian of chemical source becomes terrible. In this paper, according to the linear stability analysis of the discrete equation with the lower-upper symmetric Gauss-Seidel (LU-SGS) scheme, a local block grid refinement method is suggested based on the flow conditions for improving the stability. In the hypersonic chemically reacting flows, the refinement should be carried out for the block grid in the areas of subsonic state and high temperature behind the shock wave, and the block grid in other areas may be coarsened or invariable. The numerical results demonstrate that the improved grid has a stable computation and rapid convergence with a larger Courant-Friedrichs-Lewy (CFL) number, but cannot produce overmuch grid cells compared with initial grid.
出处 《宇航学报》 EI CAS CSCD 北大核心 2016年第9期1135-1141,共7页 Journal of Astronautics
基金 国家自然科学基金(11472221)
关键词 高超声速 对角化 稳定性分析 网格加密 Hypersonic Diagonalization Stability analysis Grid refinement
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参考文献22

  • 1刘昕,邓小刚,毛枚良.高超声速飞行器外形热流密度分布计算的高精度方法研究[J].宇航学报,2006,27(2):157-161. 被引量:5
  • 2苗文博,程晓丽,艾邦成,沈清.高超声速流动壁面催化复合气动加热特性[J].宇航学报,2013,34(3):442-446. 被引量:13
  • 3欧阳水吾,谢中强.有烧蚀气体产物影响的化学非平衡粘性流数值计算研究[J].宇航学报,1997,18(1):31-39. 被引量:6
  • 4Yoon S,Jameson A.Lower-upper symmetric-Gauss-Sediel method for the Euler and Navier-Stoker equations [J].AIAA Journal,1988,26(9):1025-1026.
  • 5Otero E,Eliasson P.Acceleration on stretched meshes with line-implicit LU-SGS in parallel implementation [J].International Journal of Computational Fluid Dynamics,2015,29(2):133-149.
  • 6Pan Sha.Hypersonic aerothermal numerical simulation method and massive parallel computation research [D].Changsha:National University of Defense Technology,2010.
  • 7Li Hai-yan.Numerical simulation of hypersonic and high temperature gas flowfield [D].Mianyang:China Aerodynamics Research and Development Center Graduate School,2007.
  • 8Kim S L,Choi J Y,Jeung I S,et al.Application of approximate chemical Jacobians for constant volume reaction and shock-induced combustion [J].Applied Numerical Mathematics,2001,39(1):87-104.
  • 9Kim S L,Jeung I S,Park Y H,et al.Approximate Jacobian methods for efficient calculation of reactive flows[C].The 36th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit,Huntsville,USA,July 17-19,2000.
  • 10Eberhardt S,Imlay S.Diagonal implicit scheme for computing flows with finite rate chemistry [J].Journal of Thermophysics and Heat Transfer,1992,6(2):208-216.

二级参考文献24

  • 1Klopfer G H,Yee H C.Viscous hypersonic shock-on-shock interaction on blunt cowl lips[J].AIAA-88-0233
  • 2Hoffmann K A,Siddiqui M S,Chiang S T.Difficulties associated with the heat flux computations of high speed flows by the Navier-Stokes equations[J].AIAA-91-0467
  • 3Deng X G,Maekawa H.Compact high-order accurate nonlinear schemes[J].J.Comp.Phys.,1997,130(1):77-91
  • 4Deng Xiao-gang,Mao Mei-liang.Weighted compact high-order nonlinear schemes for the Euler equations[J].AIAA-97-1941
  • 5Deng Xiao-gang,Zhang Han-xin.Developing high-order accurate nonlinear schemes[J].J.Comp.Phys.,2000,165(1):22-44
  • 6DENG Xiao-gang,LIU Xin,MAO Mei-liang,ZHANG Han-xin.Investigation on weighted compact fifth-order nonlinear scheme and applications to complex flow[J].AIAA-2005-5246
  • 7Liu X,Deng X G,Mac M L.Studying of weighted compact high-order nonlinear scheme WCNS-E-5 for complex flows[J].CFD Journal,2004,13(2):173-180
  • 8Gustaffson B.The convergence rate for difference approximations to mixed initial boundary value problems[J].Math.Comput.,1975,29(130):396-406
  • 9Cleary J W.Effects of angle of attack and bluntness on laminar heating-rating distributions of a 15° cone at a Mach number of 10.6[J].NASA TND-5450
  • 10Riedelbauch S,Brenner G,Muller B,Kordulla W.Numerical simulation of laminar hypersonic flow past a double-ellipsoid[J].AIAA -89-1840

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