International audienceThis work deals with the interaction of a mist of solid particles and a stationary detached shock wave. Experiments over a 3 inches sphere were done in the 70's at the Boeing Hypersonic Wind Tunnel [1]. A very strong modification of the detached shock was observed. The aim of the present work was to check the capability of numerical simulations based on an Euler-Euler approach to reproduce this behavior. Comparisons with Hulin and Znaty [2] simulations (performed with an Eulerian-Lagrangian approach) have been carried out and the results are discussed
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
Results of numerical simulations of Mach 10 air flow over a hollow cylinder-flare and a double-cone ...
A numerical study on shocked flows induced by a supersonic projectile moving in tubes is described i...
A high-speed body, such as a hypersonic aircraft or re-entry vehicle, travelling through weather may...
Les travaux présentés dans cette thèse portent sur l’interaction d'un brouillard avec un choc en rég...
The interaction between a particle and a shock wave leads to unsteady forces that can be an order of...
Steady 2D Euler flow computations have been performed for a wind tunnel section, designed for resear...
A series of numerical simulations have been made of compressible two-phase flows containing inert pa...
The interaction of a shock wave with a hot spot, a single vortex and a vortex street is studied with...
International audienceThe effect of shock waves on the dispersion characteristics of a particle clou...
In order to analyze the effect on the dynamic characteristics of the submunitions when subject to di...
A kinetic, particle method has been used to model laminar shock-shock interactions of hypersonic flo...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
The results of a computational simulation of an unsteady two-phase gas-particle flow in a hypersonic...
With the help of mathematical modeling methods we studied the evolution of whirl structures moving i...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
Results of numerical simulations of Mach 10 air flow over a hollow cylinder-flare and a double-cone ...
A numerical study on shocked flows induced by a supersonic projectile moving in tubes is described i...
A high-speed body, such as a hypersonic aircraft or re-entry vehicle, travelling through weather may...
Les travaux présentés dans cette thèse portent sur l’interaction d'un brouillard avec un choc en rég...
The interaction between a particle and a shock wave leads to unsteady forces that can be an order of...
Steady 2D Euler flow computations have been performed for a wind tunnel section, designed for resear...
A series of numerical simulations have been made of compressible two-phase flows containing inert pa...
The interaction of a shock wave with a hot spot, a single vortex and a vortex street is studied with...
International audienceThe effect of shock waves on the dispersion characteristics of a particle clou...
In order to analyze the effect on the dynamic characteristics of the submunitions when subject to di...
A kinetic, particle method has been used to model laminar shock-shock interactions of hypersonic flo...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
The results of a computational simulation of an unsteady two-phase gas-particle flow in a hypersonic...
With the help of mathematical modeling methods we studied the evolution of whirl structures moving i...
An unstructured, shock-fitting algorithm, originally developed to simulate Eulerian flows, has being...
Results of numerical simulations of Mach 10 air flow over a hollow cylinder-flare and a double-cone ...
A numerical study on shocked flows induced by a supersonic projectile moving in tubes is described i...