Axial heterogeneity in circulating fluidized bed (CFB) risers is very important to the design of fluidized bed reactors, which is, however, still unable to be described in theory. Based on a successful description of local hydrodynamics in gas solid flow, the Energy-Minimization Multi-Scale (EMMS) theory further relates axial hydrodynamics with local and global stability conditions in the system, providing a theoretical way to account for the axial heterogeneity in CFB risers. This research reveals that the interaction between particle clusters and the dilute phase as well as the surrounding dense phase has a significant effect on their dynamical evolution. Similar to cluster diameter in the EMMS theory, number density of particle clusters ...
Meso-scale structure is of critical importance to circulating fluidized bed (CFB) applications. Comp...
Gas-solid risers have been extensively used as multiphase reactors in circulating fluidized bed (CFB...
Dilute gas solid flow in riser exhibits inherent heterogeneity due to the formation of clusters. Con...
Accurate prediction of the structure-dependent interphase drag coefficient in a computational cell i...
Gas-solid two-phase flow in CFB risers is characterized by the clustering of solid particles produci...
Industrial fluidized beds usually show a wide particle size distribution which significantly affects...
CFD simulation has become an effective way to study the mixing and segregation characteristics of ga...
Gas-solid flow features significant dynamic multi-scale structure; multi-scale modeling is therefore...
The gas-solid flow in circulating fluidized bed risers is characterized by the existence of two-phas...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
Turbulent fluidized bed reactors are widely used in industry. However, CFD simulations of the hydrod...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
Unlike the conventional drag models which were developed on the basis of experiments with homogeneou...
Gas-solid flows in high solid flux risers exhibit dynamic formation of clusters of solid particles. ...
Gas-solid diameter-changing fluidized beds are usually used as either a transition section between t...
Meso-scale structure is of critical importance to circulating fluidized bed (CFB) applications. Comp...
Gas-solid risers have been extensively used as multiphase reactors in circulating fluidized bed (CFB...
Dilute gas solid flow in riser exhibits inherent heterogeneity due to the formation of clusters. Con...
Accurate prediction of the structure-dependent interphase drag coefficient in a computational cell i...
Gas-solid two-phase flow in CFB risers is characterized by the clustering of solid particles produci...
Industrial fluidized beds usually show a wide particle size distribution which significantly affects...
CFD simulation has become an effective way to study the mixing and segregation characteristics of ga...
Gas-solid flow features significant dynamic multi-scale structure; multi-scale modeling is therefore...
The gas-solid flow in circulating fluidized bed risers is characterized by the existence of two-phas...
To consider the critical effect of mesoscale structure on the drag coefficient, this paper presents ...
Turbulent fluidized bed reactors are widely used in industry. However, CFD simulations of the hydrod...
Polydisperse gas-solid systems are more common in both industry and the natural world than their mon...
Unlike the conventional drag models which were developed on the basis of experiments with homogeneou...
Gas-solid flows in high solid flux risers exhibit dynamic formation of clusters of solid particles. ...
Gas-solid diameter-changing fluidized beds are usually used as either a transition section between t...
Meso-scale structure is of critical importance to circulating fluidized bed (CFB) applications. Comp...
Gas-solid risers have been extensively used as multiphase reactors in circulating fluidized bed (CFB...
Dilute gas solid flow in riser exhibits inherent heterogeneity due to the formation of clusters. Con...