This paper aims at presenting an alternative and more consistent way to account for bodies in the framework of computing incompressible external flows in aerodynamics using vortex particle-mesh methods (VPM). More specifically, we present a purely grid-based numerical technique using an immersed interface method and the James-Lackner algorithm to compute the 2-D potential flow in an unbounded domain, including irregular interior boundaries and also the presence of a given vorticity field. This ingredient is one of the main components that are required for the computation of general viscous flows. It is therefore the first step towards an integrated unbounded immersed interface VPM method
We introduce and validate a weak coupling approach between a body-fitted velocity-pressure solver an...
We present an immersed interface method for the vorticity-velocity form of the 2D Navier Stokes equa...
A Lagrangian method that combines vortices and impulse elements (vortex dipoles) is introduced. The ...
AbstractThis paper aims at presenting an alternative and more consistent way to account for bodies i...
This paper aims at presenting an alternative and more consistent way to account for bodies in the fr...
An immersed interface-enabled vortex particle-mesh (VPM) solver is presented for the simulation of 2...
This paper presents a novel algorithm to solve the 2-D potential flow past complex geometries with c...
The Vortex Particle-Mesh (VPM) method combines the advantages of a particle method, i.e. low numeric...
The present work joins a global effort in the development of efficient and accurate numerical tools ...
The Vortex Particle-Mesh (VPM) method is well suited for solving advection dominated incompressible ...
The Vortex Particle-Mesh method has been gaining popularity for many advection-dominated flow simula...
The Vortex Particle-Mesh (VPM) method is well suited for solving advection dominated incompressible ...
We present an Immersed Interface Vortex Particle-Mesh (IIVPM) method in 2D and validate our approach...
Vortex methods have been through many developments over the past decades, yet the efficient and accu...
International audienceIn this work three branches of Immersed Boundary Methods (IBM) are described a...
We introduce and validate a weak coupling approach between a body-fitted velocity-pressure solver an...
We present an immersed interface method for the vorticity-velocity form of the 2D Navier Stokes equa...
A Lagrangian method that combines vortices and impulse elements (vortex dipoles) is introduced. The ...
AbstractThis paper aims at presenting an alternative and more consistent way to account for bodies i...
This paper aims at presenting an alternative and more consistent way to account for bodies in the fr...
An immersed interface-enabled vortex particle-mesh (VPM) solver is presented for the simulation of 2...
This paper presents a novel algorithm to solve the 2-D potential flow past complex geometries with c...
The Vortex Particle-Mesh (VPM) method combines the advantages of a particle method, i.e. low numeric...
The present work joins a global effort in the development of efficient and accurate numerical tools ...
The Vortex Particle-Mesh (VPM) method is well suited for solving advection dominated incompressible ...
The Vortex Particle-Mesh method has been gaining popularity for many advection-dominated flow simula...
The Vortex Particle-Mesh (VPM) method is well suited for solving advection dominated incompressible ...
We present an Immersed Interface Vortex Particle-Mesh (IIVPM) method in 2D and validate our approach...
Vortex methods have been through many developments over the past decades, yet the efficient and accu...
International audienceIn this work three branches of Immersed Boundary Methods (IBM) are described a...
We introduce and validate a weak coupling approach between a body-fitted velocity-pressure solver an...
We present an immersed interface method for the vorticity-velocity form of the 2D Navier Stokes equa...
A Lagrangian method that combines vortices and impulse elements (vortex dipoles) is introduced. The ...