We present an efficient technique for the solution of free surface flow problems using level set and a parallel edge-based finite elementmethod. An unstructured semi-explicit solution scheme is proposed. A custom data structure, obtained by blending node-based and edge-based approaches is presented so to allow a good parallel performance. In addition to standard velocity extrapolation (for the convection of the level set function), an explicit extrapolation of the pressure field is performed in order to impose both the pressure boundary condition and the volume conservation. The latter is also improved with a modification of the divergence free constrain. The method is shown to allow an efficient solution of both simple benchmark cases and ...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
An adaptive finite element algorithm is described for the stable solution of three-dimensional free-...
Simulation of problems involving different media that are flowing or deforming requires tracking the...
We present an efficient technique for the solution of free surface flow problems using level set and...
We present an efficient technique for the solution of free surface flow problems using level set and...
The simulation of free surface flow is a computationally demanding task. Real life simulations requi...
In this paper we present a summary of numerical methods for solving free surface and two fluid flow ...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
We present a numerical method using the level set approach for solving incom-pressible two-phase flo...
AbstractA Level-set and Finite Element Method (FEM) based two-dimensional numerical model is propose...
This presentation introduces a new stabilized finite element method based on the finite calculus (Co...
In the last two decades, the level set method has been extensively used for the numerical solution o...
A numerical method for the simulation of three-dimensional incompressible two-phase flows is present...
International audienceIn this paper, we present a numerical scheme for solving 2-phase or free-surfa...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
An adaptive finite element algorithm is described for the stable solution of three-dimensional free-...
Simulation of problems involving different media that are flowing or deforming requires tracking the...
We present an efficient technique for the solution of free surface flow problems using level set and...
We present an efficient technique for the solution of free surface flow problems using level set and...
The simulation of free surface flow is a computationally demanding task. Real life simulations requi...
In this paper we present a summary of numerical methods for solving free surface and two fluid flow ...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
We present a numerical method using the level set approach for solving incom-pressible two-phase flo...
AbstractA Level-set and Finite Element Method (FEM) based two-dimensional numerical model is propose...
This presentation introduces a new stabilized finite element method based on the finite calculus (Co...
In the last two decades, the level set method has been extensively used for the numerical solution o...
A numerical method for the simulation of three-dimensional incompressible two-phase flows is present...
International audienceIn this paper, we present a numerical scheme for solving 2-phase or free-surfa...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
Moving interfaces occur in many scientific and engineering problems. For example, in combustion prob...
An adaptive finite element algorithm is described for the stable solution of three-dimensional free-...
Simulation of problems involving different media that are flowing or deforming requires tracking the...
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