In the past few decades, multi-scale numerical methods have been developed to model
dense gas-solid flow in fluidized beds with different resolutions, accuracies, and efficiencies …

Fluid–solid systems play a major role in a wide variety of industries, from pharmaceutical
and consumer goods to chemical plants and energy generation. Along with this variety of …

Discusses the CFD-DEM method of modeling which combines both the Discrete Element
Method and Computational Fluid Dynamics to simulate fluid-particle interactions. Deals with …

Fluidized gas–particle systems are inherently unstable and they manifest structures on a
wide range of length and time scales. In this article we present for the first time in the …

This paper investigates the spatial resolution of computational fluid dynamics–discrete
element method (CFD-DEM) simulations of a bubbling fluidized bed for seven different void …

Multiphase flows in porous and granular media are widely encountered in many research
and engineering fields. Due to the complexity and limited accessibility of real facilities, it can …

Abstract Although Euler-Lagrange simulations can be performed with millions of particles,
particle coarsening where particles are replaced by parcels is necessary for simulation of …

Multiphase flow (ie, gas–solid flow and gas–liquid–solid flow) extensively exists in
industries, yet the strong coupling between different phases poses challenges in the discrete …

Solid-liquid suspension flows are widely encountered in industrial applications. In many of
these flows, the carrier fluid exhibits shear-thinning behaviour and the solids have a broad …

Abstract In Euler-Lagrange models for particulate systems, the information exchange of
multiphase coupling terms, ie drag force, heat transfer, or mass transfer, is often smoothed …