Extrapolation of the bilinear element approximation for the Poisson equation on anisotropic meshes

The automatic three-dimensional mesh generation system for molecular geometries developed in our laboratory is used to solve the Poisson᎐Boltzmann equation numerically using a finite element method. For a number of different systems, the results are found to be in good agreement with those obtained

We present an automatic three-dimensional mesh generation system for the solution of the Poisson᎐Boltzmann equation using a finite element discretization. The different algorithms presented allow the construction of a tetrahedral mesh using a predetermined spatial distribution of vertices adapted to

This paper analyses the stability of a discretisation of the Euler equations on 3D unstructured grids using an edge-based data structure, first-order characteristic smoothing, a block-Jacobi preconditioner, and Runge-Kutta timemarching. This is motivated by multigrid Navier-Stokes calculations in wh

A symbolic procedure for deriving various finite difference approximations for the three-dimensional Poisson equation is described. Based on the software package Mathematica, we utilize for the formulation local solutions of the differential equation and obtain the standard second-order scheme (7-po