In this work we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with the aim of exploiting the fact that Lagrangian methods are specially well suited for tracking interfaces. We develop a numerical scheme able to deal with large jumps in the physical properties, included surface tension, and able to accurately represent all types of discontinuities in the flow variables. The scheme is based on decoupling the velocity and pressure variables through a pressure segregation method which takes into account the interface conditions. The interface is defined to be aligned with the moving mesh, so that it remains sharp along time, and pressure degrees of freedom are duplicated at the interface nodes to represent the di...
A novel numerical method for solving three-dimensional two phase flow problems is presented. This me...
A newly developed computational fluid dynamics (CFD) model based on a multi-phase particle method is...
The aim of this presentation is to highlight the role that Particle-based simulations and Radial Ba...
In this work we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with t...
In this work we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with t...
In this work, we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with ...
In this monograph we have focused on understanding the basic physical principles of multi-fluid flow...
In previous works [S. R. Idelsohn, J. Marti, P. Becker, E. Oñate, Analysis of multifluid flows with ...
Multifluids are those fluids in which their physical properties (viscosity or density) vary internal...
In previous works [1,2], the authors have presented a highly efficient extension of the Particle Fin...
Numerical techniques frequently used for unsteady simulation of one bubble can be classified as inte...
Phenomena involving bubble flow have an important role in numerous applications such as mixing, sepa...
A novel multiple marker level-set method is introduced for Direct Numerical Simulation of deformable...
One of the challenges in modelling multiphase fluid systems is to capture accurately the discontinuo...
International audienceThe shapes and dynamics of single bubbles rising through viscous fluids are st...
A novel numerical method for solving three-dimensional two phase flow problems is presented. This me...
A newly developed computational fluid dynamics (CFD) model based on a multi-phase particle method is...
The aim of this presentation is to highlight the role that Particle-based simulations and Radial Ba...
In this work we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with t...
In this work we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with t...
In this work, we extend the Particle Finite Element Method (PFEM) to multi-fluid flow problems with ...
In this monograph we have focused on understanding the basic physical principles of multi-fluid flow...
In previous works [S. R. Idelsohn, J. Marti, P. Becker, E. Oñate, Analysis of multifluid flows with ...
Multifluids are those fluids in which their physical properties (viscosity or density) vary internal...
In previous works [1,2], the authors have presented a highly efficient extension of the Particle Fin...
Numerical techniques frequently used for unsteady simulation of one bubble can be classified as inte...
Phenomena involving bubble flow have an important role in numerous applications such as mixing, sepa...
A novel multiple marker level-set method is introduced for Direct Numerical Simulation of deformable...
One of the challenges in modelling multiphase fluid systems is to capture accurately the discontinuo...
International audienceThe shapes and dynamics of single bubbles rising through viscous fluids are st...
A novel numerical method for solving three-dimensional two phase flow problems is presented. This me...
A newly developed computational fluid dynamics (CFD) model based on a multi-phase particle method is...
The aim of this presentation is to highlight the role that Particle-based simulations and Radial Ba...