Numerical simulation of two-phase flow of immiscible fluids by the finite element, discontinuous Galerkin and level-set methods

Numerical simulation of two-phase flow of immiscible fluids by the finite element, discontinuous Galerkin and level-set methods

The subject of the paper is the numerical simulation of two-phase flow of immiscible fluids. Their motion is described by the incompressible Navier-Stokes equations with different constant density and viscosity for different fluids. The interface between the fluids is defined with the aid of the lev...

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Veröffentlicht in:Advances in computational mathematics 2019-08, Vol.45 (4), p.1993-2018
Hauptverfasser: Bezchlebová, Eva, Dolejší, Vít, Feistauer, Miloslav, Sváček, Petr
Format: Artikel
Sprache:eng
Schlagworte:
Boundary conditions
Computational fluid dynamics
Computational mathematics
Computational Mathematics and Numerical Analysis
Computational Science and Engineering
Computer simulation
Finite element method
Fluid flow
Fluids
Galerkin method
Incompressible flow
Mathematical and Computational Biology
Mathematical Modeling and Industrial Mathematics
Mathematics
Mathematics and Statistics
Miscibility
Navier-Stokes equations
Robustness (mathematics)
Transport
Two phase flow
Visualization
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Zusammenfassung:The subject of the paper is the numerical simulation of two-phase flow of immiscible fluids. Their motion is described by the incompressible Navier-Stokes equations with different constant density and viscosity for different fluids. The interface between the fluids is defined with the aid of the level-set method using a transport first-order hyperbolic equation. The Navier-Stokes system is equipped with initial and boundary conditions and transmission conditions on the interface between the two fluids. This system is discretized by the Taylor-Hood P 2/ P 1 conforming finite elements in space and the second-order BDF method in time. The transport level-set problem is solved with the aid of the space-time discontinuous Galerkin method. Numerical experiments demonstrate that the developed method is accurate and robust.
ISSN:1019-7168
1572-9044
DOI:10.1007/s10444-019-09681-1