Kazem

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−		+	This module solved the Navier-Stokes problme for a multifluid system considering large jumps just in density. It means tractions are considered continuous at the interface
−		+	and therefore no jump in viscosity is considered. Level set method is used to detrmine the interface at each step. Local pressure enrichment is considered at the
−	Description of the underlying theory and schematic list of the problems this application can solve.	+	cutted element to capture the dicontinuous pressure gradiant in these elements.
−		+
−	In this application the Navier Stokes equations are solved bla bla..	+

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Revision as of 14:06, 24 July 2013

Multifluid module

Introduction

Examples showing the class of problems that the code can solve (2-4 examples)

	Brief description of wat the model means, eventually insert link to the benchmark section...or whatever... ADVERTISMENT STYLE no numerical details!!!
	Brief description of what the model means
	Brief description of what the model means
	Brief description of what the model means

This module solved the Navier-Stokes problme for a multifluid system considering large jumps just in density. It means tractions are considered continuous at the interface and therefore no jump in viscosity is considered. Level set method is used to detrmine the interface at each step. Local pressure enrichment is considered at the cutted element to capture the dicontinuous pressure gradiant in these elements.