International audienceWe numerically simulate three-dimensional fluidized beds of monodisperse spheres using a two-way Euler/Lagrange method. Particles trajectories are tracked in a Lagrangian way, and particles collisions are computed by a soft sphere model. The fluid conservation equations are written in a classical Eulerian fashion and are locally averaged on cells 1 order of magnitude larger than particles. We detail the equations of the model and their numerical implementation. We study the influence of numerical parameters and simulation domain size on computed results in a biperiodic fluidized bed. We then validate the model against theoretical results for a bubbling fluidized bed and against experimental data for a single- and multi...
International audienceDue to the wide range of spatial scales and the complex features associated to...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...
We numerically simulate three-dimensional fluidized beds of monodisperse spheres using a two-way Eul...
Fluidization, the operation consisting in passing a fluid upwards through a bed of particles so as t...
A critical comparison of a hard-sphere discrete particle model, a two-fluid model with kinetic theor...
The present work is dedicated to the numerical study of the hydrodynamics of a pressurized fluidized...
In this paper, an Eulerian–Lagrangian approach, in which the gas flow is solved by the volume-averag...
Cylindrical fluidized beds are mostly encountered in industry. This work involves a study of the hyd...
Euler-Lagrange method is powerful for studying dense gas-solid flow, where the Eulerian grid is typi...
A new method is proposed to map properties between the Lagrangian and Eulerian grid in a discrete pa...
The large-scale hydrodynamic behavior of relatively dense dispersed multiphase flows, such as encoun...
The present work focuses on the development of a novel computational code able to predict with a rea...
Talk: Plenary Abstract: Particulate flows are ubiquitous in environmental, geophysical and engineer...
Two-phase granular systems are commonly encountered in industry, and fluidized beds are particularly...
International audienceDue to the wide range of spatial scales and the complex features associated to...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...
We numerically simulate three-dimensional fluidized beds of monodisperse spheres using a two-way Eul...
Fluidization, the operation consisting in passing a fluid upwards through a bed of particles so as t...
A critical comparison of a hard-sphere discrete particle model, a two-fluid model with kinetic theor...
The present work is dedicated to the numerical study of the hydrodynamics of a pressurized fluidized...
In this paper, an Eulerian–Lagrangian approach, in which the gas flow is solved by the volume-averag...
Cylindrical fluidized beds are mostly encountered in industry. This work involves a study of the hyd...
Euler-Lagrange method is powerful for studying dense gas-solid flow, where the Eulerian grid is typi...
A new method is proposed to map properties between the Lagrangian and Eulerian grid in a discrete pa...
The large-scale hydrodynamic behavior of relatively dense dispersed multiphase flows, such as encoun...
The present work focuses on the development of a novel computational code able to predict with a rea...
Talk: Plenary Abstract: Particulate flows are ubiquitous in environmental, geophysical and engineer...
Two-phase granular systems are commonly encountered in industry, and fluidized beds are particularly...
International audienceDue to the wide range of spatial scales and the complex features associated to...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...
Two fluid model simulations based on our recently introduced kinetic theory of granular flow (KTGF) ...