A simplified two-fluid model (STFM) combined with energy-minimization multi-scale (EMMS) drag was proposed for accurate and fast simulation of gas-solid flows. In the proposed approach, the solid phase viscosity is neglected, the solid phase pressure is calculated with an empirical formulation, and the interphase momentum transfer is modeled with EMMS drag, which takes the effects of meso-scale structures into consideration. Three typical fluidization cases, namely, a 2D circulating fluidized bed, a 3D lab-scale bubbling fluidized bed, and a 3D lab-scale full-loop circulating fluidized bed, were successfully simulated with this approach. The numerical results are compared with those of full two-fluid model (FTFM, i.e., the two-fluid model...
This study investigates the heterogeneous structure and its influence on drag coefficient for concur...
For the heterogeneous gas solid flow in a fluidized bed, meso-scale structures, such as bubble and c...
Understanding the hydrodynamics of gas-solid flows is a grand challenge in mechanical and chemical e...
A simplified two-fluid model (STFM) combined with energy-minimization multi-scale (EMMS) drag was pr...
Gas-solid fluidization is characterized by pervasive, dilute-dense two-phase flow structures, which ...
The drag models reflecting the complex phase interactions are of critical importance in the CFD simu...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
In response to the general existence of mesoscale structures in gas & ndash;solid fluidized beds, tw...
Gas-solid flow features significant dynamic multi-scale structure; multi-scale modeling is therefore...
This study investigates the heterogeneous structure and its influence on drag coefficient for concur...
The gas-solid flow in circulating fluidized bed risers is characterized by the existence of two-phas...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
Eulerian-Eulerian models incorporated with the kinetic theory of granular flow were widely used in t...
An EMMS/bubbling model for gas-solid bubbling fluidized bed was proposed based on the energy-minimiz...
Currently, the two most widespread methods for modelling the particulate phase in numerical simulati...
This study investigates the heterogeneous structure and its influence on drag coefficient for concur...
For the heterogeneous gas solid flow in a fluidized bed, meso-scale structures, such as bubble and c...
Understanding the hydrodynamics of gas-solid flows is a grand challenge in mechanical and chemical e...
A simplified two-fluid model (STFM) combined with energy-minimization multi-scale (EMMS) drag was pr...
Gas-solid fluidization is characterized by pervasive, dilute-dense two-phase flow structures, which ...
The drag models reflecting the complex phase interactions are of critical importance in the CFD simu...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
In response to the general existence of mesoscale structures in gas & ndash;solid fluidized beds, tw...
Gas-solid flow features significant dynamic multi-scale structure; multi-scale modeling is therefore...
This study investigates the heterogeneous structure and its influence on drag coefficient for concur...
The gas-solid flow in circulating fluidized bed risers is characterized by the existence of two-phas...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
Eulerian-Eulerian models incorporated with the kinetic theory of granular flow were widely used in t...
An EMMS/bubbling model for gas-solid bubbling fluidized bed was proposed based on the energy-minimiz...
Currently, the two most widespread methods for modelling the particulate phase in numerical simulati...
This study investigates the heterogeneous structure and its influence on drag coefficient for concur...
For the heterogeneous gas solid flow in a fluidized bed, meso-scale structures, such as bubble and c...
Understanding the hydrodynamics of gas-solid flows is a grand challenge in mechanical and chemical e...