This article describes the method of efficient simulation of the flow around potentially many rigid obstacles. The finite element implementation is based on the incompressible Navier-Stokes equations using structured, regular, two dimensional triangular mesh. The fictitious domain method is introduced to account for the presence of rigid particles, representing obstacles to the flow. To enforce rigid body constraints in parts corresponding to rigid obstacles, Lagrange multipliers are used. For time discretization, an operator splitting technique is used. The model is validated using 2D channel flow simulations with circular obstacles. Different possibilities of enforcing rigid body constraints are compared to the fully resolved simulations ...
In this study, we present some remarks on the results obtained by the FEM using the fictitious domai...
International audienceIn this work three branches of Immersed Boundary Methods (IBM) are described a...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
This article describes the method of efficient simulation of the flow around potentially many rigid ...
In this article we discuss a methodology that allows the direct numerical simula-tion of incompressi...
We discuss the fictitious domain solution of the Navier-Stokes equations modeling unsteady incompres...
In this article we discuss the fictitious domain solution of the Navier-Stokes equations modelling u...
This paper discusses the numerical solution of the incompressible viscous flow by the fictitious dom...
The Fictitious Boundary Method (FBM) and the Penalty Method (PM) for solving the incompressible Navi...
This paper discusses the numerical solution of the incompressible viscous flow by the fictitious dom...
International audienceThe present study deals with the numerical simulation of a fluid-structure int...
AbstractThis article introduces a numerical scheme on the basis of semi-implicit method for pressure...
In this study, in order to address the immersed boundary condition, which was the critical issue reg...
International audienceThe paper extends a stabilized fictitious domain finite element method initial...
International audienceSince a few years, fictitious domain methods have been arising for Computation...
In this study, we present some remarks on the results obtained by the FEM using the fictitious domai...
International audienceIn this work three branches of Immersed Boundary Methods (IBM) are described a...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
This article describes the method of efficient simulation of the flow around potentially many rigid ...
In this article we discuss a methodology that allows the direct numerical simula-tion of incompressi...
We discuss the fictitious domain solution of the Navier-Stokes equations modeling unsteady incompres...
In this article we discuss the fictitious domain solution of the Navier-Stokes equations modelling u...
This paper discusses the numerical solution of the incompressible viscous flow by the fictitious dom...
The Fictitious Boundary Method (FBM) and the Penalty Method (PM) for solving the incompressible Navi...
This paper discusses the numerical solution of the incompressible viscous flow by the fictitious dom...
International audienceThe present study deals with the numerical simulation of a fluid-structure int...
AbstractThis article introduces a numerical scheme on the basis of semi-implicit method for pressure...
In this study, in order to address the immersed boundary condition, which was the critical issue reg...
International audienceThe paper extends a stabilized fictitious domain finite element method initial...
International audienceSince a few years, fictitious domain methods have been arising for Computation...
In this study, we present some remarks on the results obtained by the FEM using the fictitious domai...
International audienceIn this work three branches of Immersed Boundary Methods (IBM) are described a...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...