Gas-solid counter-current downer reactors, in which particles move downward in an upward gas flow, can achieve high solid concentration for high heat and/or mass transfer rates. However, the particles may reverse their direction or even be carried out of the reactor as the gas flow rate increases. This is closely related to "flooding" in counter-current flows. The energy minimization multiscale (EMMS) model well describes multiscale heterogeneity in gas-solid cocurrent upward flows. It is further developed to simulate gas-solid counter-current downward flows because similar heterogeneity can also be found in downers. The model characterizes well the axial hydrodynamics and predicts an inflexional voidage variation with superficial gas veloc...
Gas-solid flows in high solid flux risers exhibit dynamic formation of clusters of solid particles. ...
Accurate prediction of the structure-dependent interphase drag coefficient in a computational cell i...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
Cocurrent gas-solid downer reactors have many applications in industry because they possess the te...
Countercurrent gas-solid downer reactor has been used in various processes, however, fundamental stu...
The one-dimensional model of accelerating turbulent downward counter-current gas-solids flow of coar...
A mathematical model is developed to describe the hydrodynamics of the fully developed region in a d...
Gas-solid systems, whether cocurrent or countercurrent, manifest meso-scale heterogeneity to some ex...
Eulerian-Eulerian models incorporated with the kinetic theory of granular flow were widely used in t...
In this paper, a multiphase model applied to a downer reactor is proposed, where the gas-solid model...
Axial heterogeneity in circulating fluidized bed (CFB) risers is very important to the design of flu...
This work presents a new structure-based drag model for downer reactors combining with the computati...
Virtual reality in chemical engineering features real-time simulation of complex industrial processe...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
To improve the accuracy of simulating the heterogeneous flow in a circulating fluidized bed (CFB) do...
Gas-solid flows in high solid flux risers exhibit dynamic formation of clusters of solid particles. ...
Accurate prediction of the structure-dependent interphase drag coefficient in a computational cell i...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
Cocurrent gas-solid downer reactors have many applications in industry because they possess the te...
Countercurrent gas-solid downer reactor has been used in various processes, however, fundamental stu...
The one-dimensional model of accelerating turbulent downward counter-current gas-solids flow of coar...
A mathematical model is developed to describe the hydrodynamics of the fully developed region in a d...
Gas-solid systems, whether cocurrent or countercurrent, manifest meso-scale heterogeneity to some ex...
Eulerian-Eulerian models incorporated with the kinetic theory of granular flow were widely used in t...
In this paper, a multiphase model applied to a downer reactor is proposed, where the gas-solid model...
Axial heterogeneity in circulating fluidized bed (CFB) risers is very important to the design of flu...
This work presents a new structure-based drag model for downer reactors combining with the computati...
Virtual reality in chemical engineering features real-time simulation of complex industrial processe...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
To improve the accuracy of simulating the heterogeneous flow in a circulating fluidized bed (CFB) do...
Gas-solid flows in high solid flux risers exhibit dynamic formation of clusters of solid particles. ...
Accurate prediction of the structure-dependent interphase drag coefficient in a computational cell i...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...