ZHAO Xing-yan, SU Mo-ming, MIAO Yong-miao. A Computational Method for the Navier-Stokes Equations at All Speeds[J]. Applied Mathematics and Mechanics, 2002, 23(4): 429-435.
Citation: ZHAO Xing-yan, SU Mo-ming, MIAO Yong-miao. A Computational Method for the Navier-Stokes Equations at All Speeds[J]. Applied Mathematics and Mechanics, 2002, 23(4): 429-435.

A Computational Method for the Navier-Stokes Equations at All Speeds

  • Received Date: 1999-10-13
  • Rev Recd Date: 2001-10-12
  • Publish Date: 2002-04-15
  • A PLU-SGS method based on a time-derivative preconditioning algorithm and LU-SGS method is developed in order to calculate the Navier-Stokes equations at all speeds. The equations were discretized using AUSMPW scheme in conjunction with the third-order MUSCL scheme with Van Leer limiter. The present method was applied to solve the multidimensional compressible Navier-Stokes equations in curvilinear coordinates. Characteristic boundary conditions based on the eigensystem of the preconditioned equations were employed. In order to examine the performance of present method, driven-cavity flow at various Reynolds numbers and viscous flow through a convergent-divergent nozzle at supersonic were selected to test this method. The computed results were compared with the experimental data or the other numerical results available in literature and good agreements between them are obtained. The results show that the present method is accurate, self-adaptive and stable for a wide range of flow conditions from low speed to supersonic flows.
  • loading
  • [1]
    Choi Y H,Merkle C L.The application of perconditioning in viscous flows[J].Journal of Computational Physics,1993,105(2):207-233.
    [2]
    Turkel E,Radespiel R,Kroll N.Assessment of preconditioning methods for multidimensional aerodynamic[J].Computers & Fluids,1997,26(6):613-634.
    [3]
    Edwards J K,Roy C.Preconditioned multigrid methods for two-dimensional combustion calculations at all speeds[J].AIAA Journal,1998,36(2):185-192.
    [4]
    Liou M-S,Steffen C J.A new flux splitting scheme[J].Journal of Computational Physics,1993,107(1):23-39.
    [5]
    Liou M-S.A sequel to AUSM:AUSM+[J].Journal of Computational Physics,1996,129(2):364-382.
    [6]
    Kim K H,Kim G C,Rho O H.An improvement of AUSM schemes by introducing the pressure-based weight functions[J].Computers & Fluids,1998,27(2):311-346.
    [7]
    Anderson W K,Thomas J L,Van Leer B.Comparison of finite volume flux vector splitting for the Euler equations[J].AIAA Journal,1986,24(9):1453-1460.
    [8]
    Yoon S,Jameson A.Lower-Upper Symmetric-Gauss-Seidel method for the Euler and Navier-Stokes equations[J].AIAA Journal,1988,26(9):1061-1069.
    [9]
    Ghia U,Ghia K N,Shin C T.High-Re solutions for incompressible flow using the Navier-Stokes equations and a multigrid method[J].Journal of Computational Physics,1982,48(3):387-411.
    [10]
    Mason M L,Putnam L E,Re J.The effect of throat contouring on two-dimensional converging-diverging nozzle at static condition[R].NASA TN-1704,1980.
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (2576) PDF downloads(1031) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return