Local mesh refinement for incompressible fluid flow with/without free surfaces

Haruo Terasaka; Hikaru Kajiwara; Nobuatsu Tanaka

Haruo Terasaka Nuclear Engineering Laboratory
Hikaru Kajiwara Nuclear Engineering Laboratory
Nobuatsu Tanaka Nuclear Engineering Laboratory

Abstract

This paper presents a local mesh refinement (LMR) technique and its application to incompressible fluid flows with or without free surface boundaries. In the LMR method patches of fine grid are embedded in arbitrary regions of interest. Hence, more accurate solutions can be obtained with a lower number of computational cells. LMR is very suitable for the simulation of free surface movements because free Surface flow problems generally require a finer computational grid to obtain adequate results. By means of this technique one can place finer grids only near surfaces and thus greatly reduce the total number of cells and computational costs. This paper introduces two LMR codes. Numerical examples calculated with the codes demonstrate well the advantages of the LMR method.

Keywords

References

[1] M.J. Berger, P. Colella. Local adaptive mesh refinement for shock hydrodynamics. Journal of Computational Physics, 82: 64-84, 1989.
[2] C.W. Hirt, B.D. Nichols. Volume of fluid (VOF) method for the dynamics of free boundaries. Journal of Computational Physics, 39: 201-225, 1981.
[3] U. Ghia, K.N. Ghia, C.T . Shin. High-resolutions for incompressible flow using the Navier-Stokes equations and a multigrid method. Journal of Computational Physics, 48: 387-411, 1982.
[4] N. Tanaka, H. Terasaka. A numerical study of incompressible viscous flow with massively parallel processors. Computational Fluid Dynamics Journal, 2: 145-160, 1993.