Artificial Boundary Conditions of Pressure Type for Viscous Flows in a System of Pipes

for linear partial differential equations in cylinders, which was applied to solve some nonlinear problems. In this paper the numerical simulation of the steady incompressible viscous flow in a no-slip channel is considered. A sequence The purpose of this paper is to design nonlocal artificial of ap

We design an artificial boundary condition for the steady incompressible Navier-Stokes equations in streamfhction-vorticity formulation in a flat channel with slip boundary conditions on the wall. The new boundary condition is derived fiom the Oseen equations and the method of lines. A numerical exp

We examine the use of natural boundary conditions and conditions of the Sommerfeld type for finite element simulations of convective transport in viscous incompressible flows. We show that natural boundary conditions are superior in the sense that they always provide a correct boundary condition, as

We design a discrete artificial boundary condition for the steady incompressible Navier-Stokes equations in stream function vorticity formulation in an infinite channel. The new boundary condition is derived from a linearized Navier-Stokes system and a fast iterative method. Numerical experiments fo