Projection and partitioned solution for two-phase flow problems

An implicit unconditionally stable partitioned solution procedure for the simultaneous integration of transient coupled ®eld problems is presented. The procedure does not require that the full system of coupled equations be assembled, and allows use of existing single-®eld analysis software modules

The solution of Laplace's equation for a wide range of spatial domains and boundary conditions is a valuable asset in the study of potential theory. Recently, classical analytic series techniques based on separation of variables have been modified to solve Laplace's equation with both irregular and

This paper presents numerical methods for solving turbulent and two-phase transonic ow problems. The Navier-Stokes equations are solved using cell-vertex Lax-Wendro method with artiÿcial dissipation or cell-centred upwind method with Roe's Riemann solver and linear reconstruction. Due to a big di er

A proof is given of the existence of an approximate Complex Variable Boundary Element Method solution for a Birichlet problem. This constructive proof can be used as a basis for numerical calculations. @ 1996