Abstract. We consider a standard model for incompressible two-phase flows in which a localized force at the interface describes the effect of surface tension. If a level set method is applied then the approximation of the interface is in general not aligned with the triangulation. This causes severe difficulties w.r.t. the discretization and often results in large spurious velocities. In this paper we reconsider a (modified) extended finite element method (XFEM), which in previous papers has been investigated for relatively simple two-phase flow model problems, and apply it to a physically realistic levitated droplet problem. The results show that due to the extension of the standard FE space one obtains much better results in particular fo...
We propose a simple and practical numerical method for free surface flows. The method is based vario...
International audienceA numerical method for simulating fluidelastic solid interaction with surface ...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
This paper is concerned with numerical methods for two-phase incompressible flows assuming a sharp i...
In previous works [1,2], the authors have presented a highly efficient extension of the Particle Fin...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
We discuss numerical problems and solution methods for interface problems, mostly stemming from two-...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
A 3D ALE Finite Element Method is developed to study two-phase flow phenomena using a new discretiza...
This paper presents a methodology for simulation of two-phase flows with surface tension in the fram...
This study develops the h-version of the Extended Finite Element Method (XFEM) applied to the simula...
The 2-D full Navier-Stokes equations are solved by second-order projection method coupled to level s...
We present a numerical framework for the simulation of three-dimensional multi-fluid flows based on ...
This paper presents a stabilized ¯nite element method for the solution of incom-pressible two-phase ...
(IB) methods are two popular computational techniques for multi-fluid dynamics. To help shed light o...
We propose a simple and practical numerical method for free surface flows. The method is based vario...
International audienceA numerical method for simulating fluidelastic solid interaction with surface ...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
This paper is concerned with numerical methods for two-phase incompressible flows assuming a sharp i...
In previous works [1,2], the authors have presented a highly efficient extension of the Particle Fin...
An improved level set approach for computing the incompressible two-phase flow with significantly de...
We discuss numerical problems and solution methods for interface problems, mostly stemming from two-...
A finite element method for axisymmetric two‐phase flow problems is presented. The method uses an en...
A 3D ALE Finite Element Method is developed to study two-phase flow phenomena using a new discretiza...
This paper presents a methodology for simulation of two-phase flows with surface tension in the fram...
This study develops the h-version of the Extended Finite Element Method (XFEM) applied to the simula...
The 2-D full Navier-Stokes equations are solved by second-order projection method coupled to level s...
We present a numerical framework for the simulation of three-dimensional multi-fluid flows based on ...
This paper presents a stabilized ¯nite element method for the solution of incom-pressible two-phase ...
(IB) methods are two popular computational techniques for multi-fluid dynamics. To help shed light o...
We propose a simple and practical numerical method for free surface flows. The method is based vario...
International audienceA numerical method for simulating fluidelastic solid interaction with surface ...
An improved level set approach for computing the incompressible two-phase flow with significantly de...