International audienceA simple method is developed to couple accurately the motion of rigid bodies to compressible fluid flows. Solid rigid bodies are tracked through a Level-Set function. Numerical diffusion is controlled thanks to a compressive limiter (Overbee) in the frame of MUSCL type scheme, giving an excellent compromise between accuracy and efficiency on unstructured meshes (Chiapolino et al., 2017). The method requires low resolution to preserve solid bodies' volume. Several coupling methods are then addressed to couple rigid body motion to fluid flow dynamics: a method based on stiff relaxation and two methods based on Ghost cells (Fedkiw et al., 1999) and immersed boundaries. Their accuracy and convergence rates are compared aga...
International audienceThe objective of this work is to present a conservative coupling method betwee...
The implementations of an updated body-fitted and a non body-fitted method to deal with the interact...
Fluid–structure coupling is addressed through a unified equation for compressible Newtonian fluid fl...
International audienceA simple method is developed to couple accurately the motion of rigid bodies t...
This paper deals with a new fictitious domain coupling algorithm between a rigid body and an unstead...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
International audienceThis paper deals with a new solid-fluid coupling algorithm between a rigid bod...
The moving particle semi-implicit (MPS) method does not require grids for simulating fluid motions. ...
Two-way solid fluid coupling techniques typically calculate fluid pressure forces that in turn drive...
Figure 1: Left: A solid stirring smoke runs at interactive rates, two orders of magnitude faster tha...
International audienceWe propose a general explicit coupling method between a Finite Volume method f...
A Cartesian cut cell two-fluid interface capturing solver has been applied to the flow problem of sl...
A fully-implicit ghost-cell immersed boundary method for simulations of flow over complex moving bod...
A ghost-cell immersed boundary method for unified simulations of flow over finite- and zero-thicknes...
The combination of the hyperviscosity method with the immersed-boundary method is explored. It was f...
International audienceThe objective of this work is to present a conservative coupling method betwee...
The implementations of an updated body-fitted and a non body-fitted method to deal with the interact...
Fluid–structure coupling is addressed through a unified equation for compressible Newtonian fluid fl...
International audienceA simple method is developed to couple accurately the motion of rigid bodies t...
This paper deals with a new fictitious domain coupling algorithm between a rigid body and an unstead...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
International audienceThis paper deals with a new solid-fluid coupling algorithm between a rigid bod...
The moving particle semi-implicit (MPS) method does not require grids for simulating fluid motions. ...
Two-way solid fluid coupling techniques typically calculate fluid pressure forces that in turn drive...
Figure 1: Left: A solid stirring smoke runs at interactive rates, two orders of magnitude faster tha...
International audienceWe propose a general explicit coupling method between a Finite Volume method f...
A Cartesian cut cell two-fluid interface capturing solver has been applied to the flow problem of sl...
A fully-implicit ghost-cell immersed boundary method for simulations of flow over complex moving bod...
A ghost-cell immersed boundary method for unified simulations of flow over finite- and zero-thicknes...
The combination of the hyperviscosity method with the immersed-boundary method is explored. It was f...
International audienceThe objective of this work is to present a conservative coupling method betwee...
The implementations of an updated body-fitted and a non body-fitted method to deal with the interact...
Fluid–structure coupling is addressed through a unified equation for compressible Newtonian fluid fl...