The present work is a part of a program research ANR PLAYER (started from January 2012), the aim of the project is to extend the simulations of gaz-particles flow to the non-spherical particles with a large range of inertia. The main objectives of this project consist, firstly, on the founding of hydrodynamic forces and torques occurring on these non-spherical particles. As results, we focus on the additional degrees of freedom that must be considered, shape effects and effects of inertia. Secondly, we are interested on the study of particle-turbulence interaction and particle-particle interaction. The aim of this Phd thesis consists on the studying of the dispersion of solide non-spherical particles in turbulent channel flow at mesoscopic ...
The paper deals with gas-solid turbulent flows carrying non-spherical particles. The main objective ...
Cette thèse porte sur la dynamique de particules inertielles suspendues dans des écoulements de flui...
The primary objective of this research is to better understand the motion of anisotropic particles s...
Ce travail de thèse fait partie intégrante de l’ANR PLAYER (début janvier 2012), projet visant à éte...
Using direct numerical simulation (DNS), the dynamics of inertial, non-spherical particles carried b...
En utilisant la simulation numérique directe (DNS), la dynamique de particules non sphériques inerti...
International audienceTo explore the motion of particles in turbulence, direct numerical simulation ...
This thesis focuses on the dynamics of inertial particles suspended in turbulent fluid flows that ar...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
AbstractThis paper describes a complete framework to predict the behaviour of interacting non-spheri...
Particle dynamics in a channel flow are investigated using large eddy simulation and a Lagrangian pa...
Using disk, spherical and needle-like particles with equal equivalent volume diameters, the orientat...
The dynamical behavior of tiny elongated particles in a directly simulated turbulent flow field is i...
In the present PhD thesis, we investigate the dynamics of small non-spherical particles suspended in...
We investigated the rotation of non-spherical particles (rod-like and disk-like) in turbulent channe...
The paper deals with gas-solid turbulent flows carrying non-spherical particles. The main objective ...
Cette thèse porte sur la dynamique de particules inertielles suspendues dans des écoulements de flui...
The primary objective of this research is to better understand the motion of anisotropic particles s...
Ce travail de thèse fait partie intégrante de l’ANR PLAYER (début janvier 2012), projet visant à éte...
Using direct numerical simulation (DNS), the dynamics of inertial, non-spherical particles carried b...
En utilisant la simulation numérique directe (DNS), la dynamique de particules non sphériques inerti...
International audienceTo explore the motion of particles in turbulence, direct numerical simulation ...
This thesis focuses on the dynamics of inertial particles suspended in turbulent fluid flows that ar...
The overall objective of this doctoral thesis is to investigate how tiny particles are dispersed in ...
AbstractThis paper describes a complete framework to predict the behaviour of interacting non-spheri...
Particle dynamics in a channel flow are investigated using large eddy simulation and a Lagrangian pa...
Using disk, spherical and needle-like particles with equal equivalent volume diameters, the orientat...
The dynamical behavior of tiny elongated particles in a directly simulated turbulent flow field is i...
In the present PhD thesis, we investigate the dynamics of small non-spherical particles suspended in...
We investigated the rotation of non-spherical particles (rod-like and disk-like) in turbulent channe...
The paper deals with gas-solid turbulent flows carrying non-spherical particles. The main objective ...
Cette thèse porte sur la dynamique de particules inertielles suspendues dans des écoulements de flui...
The primary objective of this research is to better understand the motion of anisotropic particles s...