This study develops the h-version of the Extended Finite Element Method (XFEM) applied to the simulation of two-fluid incompressible flow in two and three dimensions. A multilevel adaptive mesh refinement realized via hanging nodes on 1-irregular meshes is employed in the vicinity of the two-fluid interface. The sign-enrichment is used for the XFEM approximation which accurately accounts for the jump in the pressure field. The level-set method is used for the implicit representation of the interface. The Laplace-Beltrami technique is employed for the modelling of the surface tension, which avoids the explicit computation of the curvature. An emphasis of this work is on how the interplay between the interface movement (in terms of a time-dep...
This paper presents a methodology for simulation of two-phase flows with surface tension in the fram...
In this work a solver for instationary two-phase flows on the basis of the extended Discontinuous Ga...
An arbitrary Lagrangian--Eulerian finite element method is described for the solution of time-depend...
In Sussman, Smereka and Osher, a numerical method using the level set approach was formulated for so...
This paper presents an XFEM implementation to compute in an eulerian framework three-dimensional inc...
This paper is concerned with numerical methods for two-phase incompressible flows assuming a sharp i...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
We present a variable time step, fully adaptive in space, hybrid method for the accurate simulation ...
La première préoccupation de cette thèse est le problème de deux fluides ou un fluide à deux phases,...
The eXtended Finite Element Method (X-FEM) has been successfully used in two-phase flow problems inv...
The simulation of immiscible two-phase flows on Eulerian meshes requires the use of special techniqu...
Abstract. We consider a standard model for incompressible two-phase flows in which a localized force...
International audienceWe propose in this work an adaptive variational multiscale method for two-flui...
We address a two-phase Stokes problem, namely the coupling of two fluids with different kinematic vi...
This paper presents a methodology for simulation of two-phase flows with surface tension in the fram...
In this work a solver for instationary two-phase flows on the basis of the extended Discontinuous Ga...
An arbitrary Lagrangian--Eulerian finite element method is described for the solution of time-depend...
In Sussman, Smereka and Osher, a numerical method using the level set approach was formulated for so...
This paper presents an XFEM implementation to compute in an eulerian framework three-dimensional inc...
This paper is concerned with numerical methods for two-phase incompressible flows assuming a sharp i...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
We present a coupled moving mesh and level set method for computing incompressible two-phase flow wi...
We present a variable time step, fully adaptive in space, hybrid method for the accurate simulation ...
La première préoccupation de cette thèse est le problème de deux fluides ou un fluide à deux phases,...
The eXtended Finite Element Method (X-FEM) has been successfully used in two-phase flow problems inv...
The simulation of immiscible two-phase flows on Eulerian meshes requires the use of special techniqu...
Abstract. We consider a standard model for incompressible two-phase flows in which a localized force...
International audienceWe propose in this work an adaptive variational multiscale method for two-flui...
We address a two-phase Stokes problem, namely the coupling of two fluids with different kinematic vi...
This paper presents a methodology for simulation of two-phase flows with surface tension in the fram...
In this work a solver for instationary two-phase flows on the basis of the extended Discontinuous Ga...
An arbitrary Lagrangian--Eulerian finite element method is described for the solution of time-depend...