Long-time behaviors widely exist in gas-solid reactors, e.g., the coke deposition and catalyst deactivation in the methanol to olefins (MTO) process. Due to the limitation of the computational cost, previous simulations of MTO reactors were mainly conducted with two-fluid model at short-time scales and assumed that the catalyst are perfectly mixed. Efficient simulation methods are, therefore, highly desirable, even for evaluating the assumptions through very long-time investigation. In this study, the MTO reaction kinetics is incorporated into a coarse-grained discrete particle method, namely EMMS-DPM, to simulate a pilot-scale reactor for 8 h of physical time. The simulation is validated by comparing the obtained gaseous products and coke ...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Dynamic simulation of a Lurgi type industrial methanol reactor has been studied in the presence of l...
The characterization of volatile matter (VM) release from solid fuel particles during fluidized-bed ...
Particle scale information of commercial fluidized beds is important for its design and optimization...
In the methanol-to-olefins (MTO) process, coke deposition is closely related to the selectivity of l...
The methanol to olefins (MTO) process has received considerable interest due to its importance in tr...
The methanol to olefins (MTO) process opens an economical and important route to produce light olefi...
In this work, a comparative study on methanol to olefins (MTO) kinetics in fixed and fluidized bed r...
The coke distribution over shape-selective catalysts in fluidized bed reactors is critical to the se...
A reactor model has been first developed with the objective to fundamentally comprehend the qualitat...
Previous simulations of different-sized MTO fluidized beds indicated that the reactive predictions g...
A coke distribution model of catalyst particles in three-dimensional space was developed based on po...
Scale-up of fluidized bed reactors has long been regarded as a big challenge in chemical reaction en...
Residence time distribution of particles is a critical parameter for proper design of gas-solid flui...
Virtual process engineering (VPE) aims to redefine the roadmap for process scaling-up and optimiza...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Dynamic simulation of a Lurgi type industrial methanol reactor has been studied in the presence of l...
The characterization of volatile matter (VM) release from solid fuel particles during fluidized-bed ...
Particle scale information of commercial fluidized beds is important for its design and optimization...
In the methanol-to-olefins (MTO) process, coke deposition is closely related to the selectivity of l...
The methanol to olefins (MTO) process has received considerable interest due to its importance in tr...
The methanol to olefins (MTO) process opens an economical and important route to produce light olefi...
In this work, a comparative study on methanol to olefins (MTO) kinetics in fixed and fluidized bed r...
The coke distribution over shape-selective catalysts in fluidized bed reactors is critical to the se...
A reactor model has been first developed with the objective to fundamentally comprehend the qualitat...
Previous simulations of different-sized MTO fluidized beds indicated that the reactive predictions g...
A coke distribution model of catalyst particles in three-dimensional space was developed based on po...
Scale-up of fluidized bed reactors has long been regarded as a big challenge in chemical reaction en...
Residence time distribution of particles is a critical parameter for proper design of gas-solid flui...
Virtual process engineering (VPE) aims to redefine the roadmap for process scaling-up and optimiza...
The Computational Fluid Dynamics - Discrete Element Method (CFD-DEM) method is extended by coupling ...
Dynamic simulation of a Lurgi type industrial methanol reactor has been studied in the presence of l...
The characterization of volatile matter (VM) release from solid fuel particles during fluidized-bed ...