Difference between revisions of "Contrib/CompressibleMixingPhaseChangeFoam"
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Mkraposhin (Talk | contribs) (→Model Equations) |
Mkraposhin (Talk | contribs) (→Model Equations) |
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− | \frac {d \rho}{dt}= \frac {d \hat \rho} {dt} + \psi \frac {dp} {dt | + | \frac {d \rho}{dt}= \frac {d \hat \rho} {dt} + \psi \frac {dp} {dt} |
</math> | </math> | ||
Revision as of 20:15, 28 December 2012
Solver for two fluids with phase change (for example - water <---> steam), pressure and temperature density dependence
Model Equations
- Equation of state
- Liquid volume transport
Let us consider transport of liquid (heavy phase) volume fraction :
By converting to volume fluxes we get:
Using equation of state, we can reformulate substantial derivative for density in terms of pressure for any phase:
* Phase change model * Momentum equation * Energy equation