Indexed by:
期刊论文
First Author:
Jiang, Xiaobin
Correspondence Author:
He, GH (reprint author), Dalian Univ Technol, Sch Chem Engn, State Key Lab Fine Chem, Engn Lab Petrochem Energy Efficient Separat Techn, Dalian 116024, Liaoning, Peoples R China.; He, GH (reprint author), Petrochem Energy Efficient Separat Technol Engn L, Dalian 116024, Liaoning, Peoples R China.
Co-author:
Li, Guannan,Lu, Dapeng,Xiao, Wu,Ruan, Xuehua,Li, Xiangcun,He, Gaohong
Date of Publication:
2018-02-01
Journal:
CRYSTAL GROWTH & DESIGN
Included Journals:
SCIE、EI
Document Type:
J
Volume:
18
Issue:
2
Page Number:
934-943
ISSN No.:
1528-7483
Abstract:
Herein, the hybrid control mechanism of the crystal morphology modification for the treatment of a classic industrial ternary solution system (NaCl-EG-H2O) via membrane assisted crystallization was demonstrated. Solution concentration and component diffusion played the hybrid role on determining the polymorphic outcome of the crystal products. Metastable zone width under various operation temperatures and solution composition was simulated and validated by experimental results. The impact of the dominating growth mechanism (diffusion controlled growth or polynuclear growth) on the crystal morphology was also investigated. An optimized operation route aimed to simultaneously improve the crystal morphology and the separation effect was then developed based on the hybrid control mechanism. The solvent loss decreased from 4.8 to 1.2 wt%. Benefitting from the improved crystal morphology, the operative duration of corresponding downstream was also shortened. Advanced membrane assisted crystallization is a promising technology toward targeted crystal morphology for high-end solid products.
Translation or Not:
no
