A front-tracking method for viscous, incompressible, multi-fluid flows
Journal of Computational Physics
Local simulation of two-phase flows including interface tracking with mass transfer
Journal of Computational Physics
A front-tracking method for dendritic solidification
Journal of Computational Physics
Computation of three dimensional dendrites with finite elements
Journal of Computational Physics
Computation of solid-liquid phase fronts in the sharp interface limit on fixed grids
Journal of Computational Physics
Modeling melt convection in phase-field simulations of solidification
Journal of Computational Physics
A volume of fluid based method for fluid flows with phase change
Journal of Computational Physics
Journal of Computational Physics
The constrained interpolation profile method for multiphase analysis
Journal of Computational Physics
A front-tracking method for the computations of multiphase flow
Journal of Computational Physics
Modeling dendritic growth of a binary alloy
Journal of Computational Physics
Computations of Explosive Boiling in Microgravity
Journal of Scientific Computing
A Level Set Approach for the Numerical Simulation of Dendritic Growth
Journal of Scientific Computing
A sharp-interface phase change model for a mass-conservative interface tracking method
Journal of Computational Physics
Journal of Computational Physics
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The status of direct numerical simulation of multiphase flows with phase change is discussed, with particular emphasis on the formation of microstructure during solidification, in the presence of flow, and boiling. A number of methods have recently been developed to simulate these problems, mostly using the ''one-fluid'' approach, where one set of governing equations is used for both phases. Results for both problems, using a combined finite volume/front tracking method are shown.