Numerical simulations of gas-liquid-solid circulating flows coupled to mesoscale parameters and measurements  

作　　者：Lubin Zhang Yongli Ma Mingyan Liu 

机构地区：[1]School of Chemical Engineering and Technology,Tianjin University,Tianjin,300350,China [2]State Key Laboratory of Chemical Engineering,Tianjin,300350,China

出　　处：《Particuology》2025年第2期236-256,共21页颗粒学报(英文版)

基　　金：This work was supported by the National Natural Science Foundation of China(grant No.22008169);the Open Research Fund of State Key Laboratory of Multiphase Complex Systems(grant No.MPCS-2021-D-06).

摘　　要：Gas-liquid-solid circulating fluidized bed(GLSCFB)is an important type of chemical reactor.The complex mesoscale flow structure of GLSCFB was described through the mesoscale flow structure parameters based on the energy-minimization multi-scale(EMMS)model.The liquid-solid drag force model(Drag-ls model)was proposed and it was found that the drag coefficient between liquid and solid in three-phase systems increased compared to liquid-solid two-phase systems because of the influence of gas phase.The gas-solid drag force model(Drag-gs model)was proposed based on a modified unified wake model.Furthermore,the combination of EMMS model and computational fluid dynamics(CFD)in GLSCFB was implemented,and the dynamic evolution process of particle clusters and distributions of gas holdup and solid holdup in GLSCFB were simulated more accurately by the models.The simulation results indicate that the drag forces exerted on the solid phase by both the liquid and gas phases are coupled and mutually influence each other.The simulated values of solid holdup may deviate from the experimental values if the interactions between the gas-solid and liquid-solid phases are corrected independently.When the average solid holdup of the bed is low,the mesoscale phenomena such as particle aggregation are not obvious.As the solid holdup increases,there is a significant phenomenon of particle aggregation in the bed.The particles undergo a spatiotemporal evolution process of forming elongated clusters with high solid holdup,spherical clusters with high solid holdup,and clusters with low solid holdup which has large surface areas.

关 键 词：Gas-liquid-solid circulating fluidized bed Energy-minimization multi-scale model Unified wake model Computational fluid dynamics Particle cluster 

分 类 号：O35[理学—流体力学]