International audienceIn this work, three-dimensional numerical simulations of a lab-scale pressurized fluidized bed are performed using an Euler-Lagrange approach. The gas phase is modeled in a LES framework, and the solid phase is tracked by the Discrete Element Method (DEM). The numerical predictions of the mean particle velocity are compared with experimental data obtained from Positron Emission Particle Tracking (PEPT). Results from Euler-Lagrange numerical simulations (LES-DEM) are compared with the predictions obtained using a Two-Fluid Model (TFM). The main goal of the present study is to carry out a statistical analysis based on the Mesoscopic Eulerian Formalism (MEF) in dense regime. One-point against two-point correlations are co...
AbstractIn this paper, we present a hybrid model for the numerical assessment of poly-disperse gas-s...
The present study aims to validate two-dimensional Lagrangian-Eulerian simulations of gas-solid flui...
A preliminary investigation of the scaling laws for bubbling fluidized beds was undertaken using Dis...
International audienceIn this work, three-dimensional numerical simulations of a lab-scale pressuriz...
The present work is dedicated to the numerical study of the hydrodynamics of a pressurized fluidized...
International audienceThe present work investigates the performance of a mesoscopic Lagrangian appro...
International audienceDue to the wide range of spatial scales and the complex features associated to...
The coexistence of large particles (such as biomass or coal particles) and fine particles in gas-sol...
A critical comparison of a hard-sphere discrete particle model, a two-fluid model with kinetic theor...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
AbstractIn this paper, we present a hybrid model for the numerical assessment of poly-disperse gas-s...
The present study aims to validate two-dimensional Lagrangian-Eulerian simulations of gas-solid flui...
A preliminary investigation of the scaling laws for bubbling fluidized beds was undertaken using Dis...
International audienceIn this work, three-dimensional numerical simulations of a lab-scale pressuriz...
The present work is dedicated to the numerical study of the hydrodynamics of a pressurized fluidized...
International audienceThe present work investigates the performance of a mesoscopic Lagrangian appro...
International audienceDue to the wide range of spatial scales and the complex features associated to...
The coexistence of large particles (such as biomass or coal particles) and fine particles in gas-sol...
A critical comparison of a hard-sphere discrete particle model, a two-fluid model with kinetic theor...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
The mixing and segregation of particles of various types in gas–solid fluidized beds is a common phe...
AbstractIn this paper, we present a hybrid model for the numerical assessment of poly-disperse gas-s...
The present study aims to validate two-dimensional Lagrangian-Eulerian simulations of gas-solid flui...
A preliminary investigation of the scaling laws for bubbling fluidized beds was undertaken using Dis...