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任意马赫数非定常流动数值模拟的统一算法 被引量:4

A Uniform Method for Unsteady Flows at Arbitrary Mach Number
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摘要 发展适用于从低速到高速任意马赫数非定常流动数值模拟的统一算法.通过引入一个伪时间导数项和一个新的预处理矩阵,得到双时间非定常预处理可压缩Navier-Stokes方程.方程的对流项采用三阶Roe通量近似差分格式离散,粘性项采用二阶中心差分格式离散.基于数值通量的线性化技术,实现伪时间步的隐式ADI-LU格式迭代,进而获得物理时间步的二阶推进精度.重点以低马赫数流动为例,求解了圆柱绕流和NACA0015翼型等速上仰动态失速问题.计算结果表明该统一算法能够较好地模拟低马赫数乃至任意马赫数非定常流动. A uniform method for unsteady flows at arbitrary Mach number is developed. The preconditioned dual-time compressible Navier- Stokes equations for unsteady flows are obtained by incorporating a pseudo-time derivative term and preconditioning. The inviscid flux vectors and the viscous flux vectors are differentiated by a Roe-scheme of three-order and a general central difference scheme, respectively. A pseudotime subiteration with an implicit ADI-LU scheme is implemented based on state-vector flux linearization. A two, order precision for physicaltime step is achieved. Taking low speed flows as examples, the flow over a circular cylinder and the dynamic stall of the NACA0015 airfoil with identical pitching rate are simulated. Computed results agree with published results. It shows that the method simulates unsteady flows at arbitrary Mach number well.
作者 欧平 马汉东 汪翼云
机构地区 航天空气动力技术研究院
出处 《计算物理》 CSCD 北大核心 2007年第2期166-170,共5页 Chinese Journal of Computational Physics
基金 国家自然科学基金(10372096)资助项目
关键词 预处理方法 差分格式 双时间迭代 非定常流动 翼型 preconditioning difference scheme dual-time iteration unsteady flow airfoil
分类号 V211.15 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献12

  • 1Turkel E.A review of preconditioning methods for fluid dynamics[J].Appl Numer Math,1993,12:257-284.
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二级参考文献10

  • 1童秉纲,张炳暄,崔尔杰.非定常流与涡运动.北京:国防工业出版社,1993(Tong Binggang,Zhang Bingxuan,Cui Erjie. Unsteady Flow and Vortex Motion. Beijing: National Defence Industry Press, 1993(in Chinese))
  • 2Helin HE, Walker JM, Seiler Frank J. Interrelated effects of pitch rate and pivot point on airfoil dynamic stall. AIAA85-0130, 1985
  • 3Walker JM, Helin HE, Strickland JH. An experimental investigation of an airfoil undergoing large-amplitude pitching motions. AIAA Journal, 1985, 23(8): 1141~1142
  • 4Walker J, et al. Unsteady surface pressure measurements on a pitching airfoil. AIAA 85-0532, 1985
  • 5Albertson JA, Troutt TR, Siuru WD. Dynamic stall vortex development and the surface pressure field of a pitching airfoil. AIAA 87-1333, 1987
  • 6Wu JC, Wang CM, Tuncer IH. Unsteady aerodynamics of rapidly pitched airfoils. AIAA 86-1105, 1986
  • 7Visbal MR. Evaluation of an implicit Navier-Stokes solver for some unsteady separated flows. AIAA 86-1053, 1986
  • 8Visbal MR, Shang JJS. Numerical investigation of the flow structure around a rapidly pitching airfoil. AIAA 87-1424,1987
  • 9Rogers SE, Kwak Dochan. Steady and unsteady solutions of the incompressible Navier-Stokes equations. AIAA Journal, 1991, 29(4): 603~610
  • 10袁先旭.非定常流动数值模拟及飞行器动态特性分析研究.[博士论文].北京:中国空气动力研究与发展中心研究生部,2002(Yuan Xianxu. Research of unsteady flow computational simulation and dynamic characteristics of aerocraft. [Ph D Thesis]. Beijing: Graduate Student Department of Chinese Research and Development Center of Aerodynamics, 2002(in Chinese))

共引文献15

同被引文献47

引证文献4

二级引证文献20

计算物理
2007年 第2期

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