This article presents a mathematical formulation of the aggregation kinetics in granular flow. The traditional kinetic theory and its generalized application to granular flow does not allow for particle size to change with time thus cannot be used to describe particle flow with aggregation taking place. In this article, a collision success factor, quantifying the completely inelastic collision of particles, is introduced into the evaluation of collision rate. The kinetic transport equations are then transformed to include source terms that account for the effects of particle size and aggregation. The analytical solution of the collision success factor is obtained by integrating the relative velocity distribution function over its velocity d...
The kinetic theory for particles of equal mass, density, and size is well established. However, kine...
AbstractA kinetic model for a granular gas of particles inelastically scattering between themselves,...
Polydisperse granular flow has been extensively studied using kinetic theory, where approximations, ...
Aggregation in particulate flow affects not only the size but also the pressure, momentum, kinetic e...
This book addresses the study of the gaseous state of granular matter in the conditions of rapid flo...
The kinetic theory of granular flow is a successful model for gas-solid flows. However, inelastic co...
The purpose of this paper is to develop a theoretically sound basis for the equi-partition of kineti...
We investigate the aggregation kinetics of sedimenting particles theoretically and numerically, usin...
It is well-recognized that granular media under rapid flow conditions can be modeled as a gas of har...
The kinetic theory of granular flow (KTGF) is modified to fit the Einstein's equation for effect...
In a kinetic theory, it is usually assumed that the time duration of particle collision is vanishing...
Agglomeration in a fluid flow, when collisions of aggregates with channel walls are important is ana...
We apply the extended kinetic theory (EKT) to the dense, simple shear flow of inelastic hard spheres...
The applicability of constitutive models based on kinetic theory for dense granular flows is examine...
This paper presents a predictive aggregation rate model for spray fluidized bed melt granulation. Th...
The kinetic theory for particles of equal mass, density, and size is well established. However, kine...
AbstractA kinetic model for a granular gas of particles inelastically scattering between themselves,...
Polydisperse granular flow has been extensively studied using kinetic theory, where approximations, ...
Aggregation in particulate flow affects not only the size but also the pressure, momentum, kinetic e...
This book addresses the study of the gaseous state of granular matter in the conditions of rapid flo...
The kinetic theory of granular flow is a successful model for gas-solid flows. However, inelastic co...
The purpose of this paper is to develop a theoretically sound basis for the equi-partition of kineti...
We investigate the aggregation kinetics of sedimenting particles theoretically and numerically, usin...
It is well-recognized that granular media under rapid flow conditions can be modeled as a gas of har...
The kinetic theory of granular flow (KTGF) is modified to fit the Einstein's equation for effect...
In a kinetic theory, it is usually assumed that the time duration of particle collision is vanishing...
Agglomeration in a fluid flow, when collisions of aggregates with channel walls are important is ana...
We apply the extended kinetic theory (EKT) to the dense, simple shear flow of inelastic hard spheres...
The applicability of constitutive models based on kinetic theory for dense granular flows is examine...
This paper presents a predictive aggregation rate model for spray fluidized bed melt granulation. Th...
The kinetic theory for particles of equal mass, density, and size is well established. However, kine...
AbstractA kinetic model for a granular gas of particles inelastically scattering between themselves,...
Polydisperse granular flow has been extensively studied using kinetic theory, where approximations, ...