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Optimized Stirred Reactor for Enhanced Particle Dispersion
Wang, S; Jiang, M; Ibrahim, S; Wu, J; Feng, X; Duan, XX; Yang, Z; Yang, C; Ohmura, N
APR
发表期刊CHEMICAL ENGINEERING & TECHNOLOGY
ISSN0930-7516
卷号39页码:680
摘要Homogeneous dispersion of particles is crucial for many processes where the reaction rate is highly dependent on relative rates of mixing or degree of homogenization. These processes include crystallization, polymerization, and some mineral-refining processes. Complete particle dispersion in high-concentration slurries is researched experimentally and numerically. Computation fluid dynamics results suggest that cloud height is an excellent indicator for mixing homogeneity, and energy efficiency can be enhanced by removing baffles over a range of solids concentrations under the complete dispersion condition. The power required to maintain a high cloud height in a stirred tank can be predicted via a simple power number analysis. The proposed unbaffled design can be potentially beneficial to some industrial processes like crystallization.
关键词Solid-liquid Suspensions Process Intensification Numerical-simulation Agitated Vessel Cfd Simulation Tanks Flow Dynamics Height Regime
WOS标题词Engineering
DOI10.1002/ceat.201500458
WOS记录号WOS:000372958300011
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文献类型期刊论文
条目标识符http://ir.ipe.ac.cn/handle/122111/22571
专题研究所(批量导入)
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GB/T 7714
Wang, S,Jiang, M,Ibrahim, S,et al. Optimized Stirred Reactor for Enhanced Particle Dispersion[J]. CHEMICAL ENGINEERING & TECHNOLOGY
APA Wang, S.,Jiang, M.,Ibrahim, S.,Wu, J.,Feng, X.,...&Ohmura, N.
MLA Wang, S,et al."Optimized Stirred Reactor for Enhanced Particle Dispersion".CHEMICAL ENGINEERING & TECHNOLOGY 39
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