Simulation and Scale-up of Barium Sulphate Precipitation Process Using CFD Modeling

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Simulation and Scale-up of Barium Sulphate Precipitation Process Using CFD Modeling

GONG Junbo^a; WEI Hongyuan^a; WANG Jingkang^a; John Garside^b

^a School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China
^b Department of Chemical Engineering, UMIST, Manchester M601QD, UK

Received:1900-01-01 Revised:1900-01-01 Online:2005-04-28 Published:2005-04-28
Contact: GONG Junbo

应用CFD技术对工业结晶过程进行模拟和放大

龚俊波^a; 卫宏远^a; 王静康^a; John Garsideb^b

^a School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China
^b Department of Chemical Engineering, UMIST, Manchester M601QD, UK

通讯作者: 龚俊波

Abstract

Abstract: Some empirical mixing models were used to describe the imperfect mixing in precipitation process.However, the models can not, in general, reflect the details of interactions between mixing and crystallization in a vessel. In this study, CFD (computational fluid dynamics) technique were developed by simulating the precipitation of barium sulphate in stirred tanks by integration of population balance equations with a CFD solver. Two typical impellers, Rushton and pitched blade turbines, were employed for agitation. The influence of feed concentration and position on crystal product properties was investigated by CFD simulation. The scale-up of these precipitators was systematically studied. Significant effect on the crystal properties was found for the scale-up under some conditions.Keywords simulation, scale up, precipitation, CFD(computational fluid dynamics)

Key words: simulation, scale up, precipitation, CFD (computational fluid dynamics)

摘要： Some empirical mixing models were used to describe the imperfect mixing in precipitation process.However, the models can not, in general, reflect the details of interactions between mixing and crystallization in a vessel. In this study, CFD (computational fluid dynamics) technique were developed by simulating the precipitation of barium sulphate in stirred tanks by integration of population balance equations with a CFD solver. Two typical impellers, Rushton and pitched blade turbines, were employed for agitation. The influence of feed concentration and position on crystal product properties was investigated by CFD simulation. The scale-up of these precipitators was systematically studied. Significant effect on the crystal properties was found for the scale-up under some conditions.Keywords simulation, scale up, precipitation, CFD(computational fluid dynamics)

关键词: 模拟技术;硫酸钡;CFD模型;流体动力学;计算方法

GONG Junbo, WEI Hongyuan, WANG Jingkang, John Garside. Simulation and Scale-up of Barium Sulphate Precipitation Process Using CFD Modeling[J]. .

龚俊波,卫宏远,王静康,John Garsideb. 应用CFD技术对工业结晶过程进行模拟和放大[J]. CIESC Journal.

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