Numerical simulation of two-phase flow and droplet breakage of glycerin-water mixture and kerosene in the cyclone reactor
二阶段的流动和在气旋反应堆的甘油水混合和煤油的微滴破裂的数字模拟作者机构:State Key Laboratory of Heavy Oil ProcessingChina University of Petroleum-BeijingBeijing 102249China
出 版 物:《Chinese Journal of Chemical Engineering》 (中国化学工程学报(英文版))
年 卷 期:2021年第34卷第6期
页 面:150-159页
核心收录:
学科分类:08[工学] 0817[工学-化学工程与技术] 081701[工学-化学工程]
基 金:financial support of the Natural Science Foundation of China(21890763) National Science and Technology Innovation Leading Talents Project of National Ten Thousand People Plan
主 题:Liquid-liquid cyclone reactor Ionic liquid separation Droplet deformation Droplet breakage Computational fluid dynamics
摘 要:A liquid-liquid cyclone reactor(LLCR)was designed to achieve mixing-reaction-separation integration during isobutane alkylation catalyzed by ionic ***,studies of the droplets deformation and breakage in the kind of reactors are *** this work,the research studied the velocity distribution,pressure field,and turbulent field to investigate the flow pattern and the main energy loss location in the LLCR through the computational fluid dynamics(CFD)*** simulation results were verified by experiemnts to prove the correctness of the *** the deformation and breakage process of droplets,and the influencing factors of droplets breakage were studied by remodeling which was based on the tangential velocity distribution result of the three dimensional *** three dimensional simulation results clearly showed that the pressure of the LLCR was mainly concentrated in the cone section and fluid turbulent motion was the most intense near the lateral *** reconstruct the results of the two dimensional model clearly showed that the deformation and breakage location of droplets were mainly occurred in the velocity boundary layer,while it was difficult to break in the mainstream *** addition,low surface tension and high Weber number had a positive effect on droplet breakage.
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