International audienceThis paper deals with the numerical study of the interaction of a shock wave and a bubble. The three different density ratio cases between air and bubble are investigated: light/heavy, heavy/light and close density. The numerical simulations are compared to the experiments of Layes et al. Phys. Rev. Lett. 91, 17 2003. These three cases may allow us to better understand the vortex deposition by the baroclinic terms. Moreover, the behavior differences between the deformation of a bubble and a cylinder collided by a shock wave are shown. An analytical approach to evaluate the final volume of an inhomogeneity submitted to a shock wave interaction is also presented and discussed
As an incident shock wave collides with a material interface between two fluids of different densiti...
The dynamics of multiple shock-accelerated bubbles initially located in the vicinity of a rigid wall...
This paper examines, by computational simulation, a canonical Richtmyer-- Meshkov instability realiz...
International audienceThis paper deals with the numerical study of the interaction of a shock wave a...
Abstract. The three-dimensional shock-bubble interaction is investigated numerically using high-reso...
The present research program is centered on the experimental and numerical study of the hydrodynamic...
Two-dimensional and three-dimensional computational fluid dynamics studies of a spherical bubble imp...
International audienceSince several years, the CEA/DAM and the IUSTI laboratory investigate the Rich...
International audienceThis paper presents a numerical study of the interaction betweena planar incid...
The paper investigates shock-induced vortical flows within inhomogeneous media of nonuniform thermod...
We investigate a reacting shock–bubble interaction through three-dimensional numerical simulations w...
The instability of shocked and reshocked perturbed interface between gases of different densities is...
Direct numerical simulation (DNS) is used to study flow characteristics after interaction of a plana...
Computational results are presented for an evolving Refrigerant-22 bubble after its interaction with...
Simulation of shock-induced collapse of air bubbles in a stiff medium, such as water, poses a signi...
As an incident shock wave collides with a material interface between two fluids of different densiti...
The dynamics of multiple shock-accelerated bubbles initially located in the vicinity of a rigid wall...
This paper examines, by computational simulation, a canonical Richtmyer-- Meshkov instability realiz...
International audienceThis paper deals with the numerical study of the interaction of a shock wave a...
Abstract. The three-dimensional shock-bubble interaction is investigated numerically using high-reso...
The present research program is centered on the experimental and numerical study of the hydrodynamic...
Two-dimensional and three-dimensional computational fluid dynamics studies of a spherical bubble imp...
International audienceSince several years, the CEA/DAM and the IUSTI laboratory investigate the Rich...
International audienceThis paper presents a numerical study of the interaction betweena planar incid...
The paper investigates shock-induced vortical flows within inhomogeneous media of nonuniform thermod...
We investigate a reacting shock–bubble interaction through three-dimensional numerical simulations w...
The instability of shocked and reshocked perturbed interface between gases of different densities is...
Direct numerical simulation (DNS) is used to study flow characteristics after interaction of a plana...
Computational results are presented for an evolving Refrigerant-22 bubble after its interaction with...
Simulation of shock-induced collapse of air bubbles in a stiff medium, such as water, poses a signi...
As an incident shock wave collides with a material interface between two fluids of different densiti...
The dynamics of multiple shock-accelerated bubbles initially located in the vicinity of a rigid wall...
This paper examines, by computational simulation, a canonical Richtmyer-- Meshkov instability realiz...