论文信息 - An Arbitrary Lagrangian-Eulerian Method with Local Structured Adaptive Mesh Refinement for Modeling Shock Hydrodynamics

An Arbitrary Lagrangian-Eulerian Method with Local Structured Adaptive Mesh Refinement for Modeling Shock Hydrodynamics

A new method that combines staggered grid Arbitrary Lagrangian-Eulerian (ALE) techniques with structured local adaptive mesh refinement (AMR) has been developed for solution of the Euler equations. This method facilitates the solution of problems currently at and beyond the boundary of soluble problems by traditional ALE methods by focusing computational resources where they are required through dynamic adaption. Many of the core issues involved in the development of the combined ALEAMR method hinge upon the integration of AMR with a staggered grid Lagrangian integration method. The novel components of the method are mainly driven by the need to reconcile traditional AMR techniques, which are typically employed on stationary meshes with cell-centered quantities, with the staggered grids and grid motion employed by Lagrangian methods. Numerical examples are presented which demonstrate the accuracy and efficiency of the method.

[1] L. G. Margolin,et al. A method for treating hourglass patterns , 1987 .

[2] D. Benson. An efficient, accurate, simple ALE method for nonlinear finite element programs , 1989 .

[3] Scott R. Kohn,et al. Managing application complexity in the SAMRAI object‐oriented framework , 2002, Concurr. Comput. Pract. Exp..

[4] M. Wilkins. Calculation of Elastic-Plastic Flow , 1963 .

[5] Marsha Berger,et al. Three-Dimensional Adaptive Mesh Refinement for Hyperbolic Conservation Laws , 1994, SIAM J. Sci. Comput..

[6] John B. Bell,et al. Cartesian grid method for unsteady compressible flow in irregular regions , 1995 .

[7] A. M. Winslow. Numerical Solution of the Quasilinear Poisson Equation in a Nonuniform Triangle Mesh , 1997 .

[8] R. T. Barton,et al. HEMP advection model , 1981 .

[9] Phillip Colella,et al. Adaptive mesh refinement on moving quadrilateral grids , 1989 .

[10] J. J. Quirk,et al. An adaptive grid algorithm for computational shock hydrodynamics , 1991 .

[11] M. Berger,et al. Adaptive mesh refinement for hyperbolic partial differential equations , 1982 .

[12] Richard Bissell Pember,et al. Comparison of Direct Eulerian Godunov and Lagrange Plus Remap, Artificial Viscosity Schemes , 2001 .

[13] P. Woodward,et al. The numerical simulation of two-dimensional fluid flow with strong shocks , 1984 .

[14] P. Colella,et al. Local adaptive mesh refinement for shock hydrodynamics , 1989 .