# Incompressible Fluid Application

(Difference between revisions)
 Revision as of 13:49, 11 December 2009 (view source)Kazem (Talk | contribs)← Older edit Revision as of 14:00, 11 December 2009 (view source)Kazem (Talk | contribs) (→Theory)Newer edit → Line 14: Line 14: The aim of this application is to solve the well known set of '''Navier-Stokes''' equations. The problem suffers from severe '''locking''' and/or '''instability''' using linear FEM. The aim of this application is to solve the well known set of '''Navier-Stokes''' equations. The problem suffers from severe '''locking''' and/or '''instability''' using linear FEM. + $+ \rho C \frac{\partial T}{\partial t} + \rho C v \cdot \nabla T + \nabla + \cdot q = 0 +$ This application solve the the equations.... This application solve the the equations.... Mathematical approach to the problems. Mathematical approach to the problems. Line 20: Line 24: Insert here all the references to your papers... Insert here all the references to your papers... − === Numerical approach === === Numerical approach ===

## General Description ADVERTISMENT STYLE no numerical details!!!

### Theory

The aim of this application is to solve the well known set of Navier-Stokes equations. The problem suffers from severe locking and/or instability using linear FEM. $\rho C \frac{\partial T}{\partial t} + \rho C v \cdot \nabla T + \nabla \cdot q = 0$ This application solve the the equations.... Mathematical approach to the problems.

Nothing numerical

Insert here all the references to your papers...

### Numerical approach

All numerical details here.

This is a part quite open, depending on the application we are considering.

Every physical problem is solved defining many different ingredients. Try to be quite schematic.