Difference between revisions of "User talk:Bossenne"
From www.coria-cfd.fr
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== Motivation == | == Motivation == | ||
H-Allegro uses the compressible and reactive Navier-Stokes equations in order to solve two-phase combustion. It also takes into account a simplified chemistry of the reaction and the propagation of acoustic waves. | H-Allegro uses the compressible and reactive Navier-Stokes equations in order to solve two-phase combustion. It also takes into account a simplified chemistry of the reaction and the propagation of acoustic waves. | ||
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| + | == Equations and Hypotheses == | ||
| + | |||
| + | ===Equations=== | ||
* <math> | * <math> | ||
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\dfrac{\partial{{\rho}Y_{k}}}{\partial{t}}+\dfrac{\partial{{\rho}Y_{k}U_{j}}}{\partial{x_{j}}}=\dfrac{\partial{q_{j}^{k}}}{\partial{x_{j}}}+S_{k} | \dfrac{\partial{{\rho}Y_{k}}}{\partial{t}}+\dfrac{\partial{{\rho}Y_{k}U_{j}}}{\partial{x_{j}}}=\dfrac{\partial{q_{j}^{k}}}{\partial{x_{j}}}+S_{k} | ||
</math> | </math> | ||
| + | |||
| + | ===Hypotheses=== | ||
| + | <i> Partie de Mélissa</i> | ||
Revision as of 15:10, 6 June 2012
Motivation
H-Allegro uses the compressible and reactive Navier-Stokes equations in order to solve two-phase combustion. It also takes into account a simplified chemistry of the reaction and the propagation of acoustic waves.
Equations and Hypotheses
Equations
Hypotheses
Partie de Mélissa
