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AN EFFICIENT IMPLICIT MESH-FREE METHOD TO SOLVE TWO-DIMENSIONAL COMPRESSIBLE EULER EQUATIONS

H. Q. Chen and C. Shu ()
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H. Q. Chen: Department of Aerodynamics, Nanjing University of Aeronautics and Astronautics, 29 Yudao Jie, Nanjing 210016, P. R. China
C. Shu: Department of Mechanical Engineering, National University of Singapore, 10 Kent Ridge Crescent, Singapore 117576, Singapore

International Journal of Modern Physics C (IJMPC), 2005, vol. 16, issue 03, 439-454

Abstract: Local radial basis function-based differential quadrature (RBF-DQ) method is a natural mesh-free approach, in which any derivative of a function at a point is approximated by a weighted linear sum of functional values at its surrounding scattered points. In this paper, the weighting coefficients in the spatial derivative approximation of the Euler equation are determined by using a weighted least-square procedure in the frame of RBFs, which enhances the flexibility of distributing points in the computational domain. An upwind method is further introduced to cope with discontinuities by using Roe's approximate Riemann solver for estimation of the inviscid flux on the virtual mid-point between the reference knot and its surrounding knot. The lower–upper symmetric Gauss–Seidel (LU-SGS) algorithm, which is implemented in a matrix-free form like the one used in the finite-volume method, is introduced in the work to speed up the convergence. The proposed approach is validated by its application to simulate transonic flows over a NACA 0012 airfoil. It was found that the present mesh-free results agree very well with available data in the literature, and the implicit LU-SGS algorithm can greatly save the computational time as compared with explicit time marching methods.

Keywords: RBF-DQ method; Euler equations; LU-SGS algorithm; transonic compressible flows; least-square approach; implicit method (search for similar items in EconPapers)
Date: 2005
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http://www.worldscientific.com/doi/abs/10.1142/S0129183105007327
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DOI: 10.1142/S0129183105007327

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