Shape inverse problem for the two-dimensional unsteady Stokes flow

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

The Euler and Navier-Stokes equations for an incompressible fluid in two dimensions with periodic boundary conditions are considered. Concerning the Euler equation, previous works analyzed the associated (first order) Liouville operator L as a symmetric linear operator in a Hilbert space L 2 ðm g Þ

The accuracy of colocated finite volume schemes for the incompressible Navier -Stokes equations on non-smooth curvilinear grids is investigated. A frequently used scheme is found to be quite inaccurate on non-smooth grids. In an attempt to improve the accuracy on such grids, three other schemes are

A numerical flow-compaction model is developed and implemented in a finite element code to simulate the multiple physical phenomena involved during the autoclave processing of fibre-reinforced composite laminates. The model is based on the effective stress formulation coupled with a Darcian flow the

The paper presents a new relatively simple yet very effective method to obtain an approximate solution of the direct and inverse problems for two-dimensional wave equation (two space variables and time). Such a equation describes, for example, the vibration of a membrane. To obtain an approximate so