纳滤
材料科学
涂层
烧结
渗透
化学工程
膜
聚乙烯醇
陶瓷
浸涂
溶剂
复合材料
中空纤维膜
陶瓷膜
纤维
相位反转
丙酮
有机化学
化学
工程类
生物化学
作者
Hong Joo Lee,Seong‐Joong Kim,Yeo Jin Kim,Hosik Park,You-In Park,Seung Eun Nam
标识
DOI:10.1016/j.ceramint.2021.08.310
摘要
Nanofiltration ceramic hollow fiber membranes were developed to simplify the manufacturing process and improve water and organic solvent permeation performance. The alumina hollow fiber support was prepared by a phase-inversion/sintering method, and a γ-Al2O3 sol was coated thereon as a selective layer. Polyvinyl alcohol and ethanol were used as the drying control chemical additive in the coating solution, so that a coating layer could be formed without defects in only one coating step. The coating layer thickness could be adjusted to 0.6–2 μm depending on the coating drawing speed. A sintering temperature of 350 °C was selected to provide both reasonable water permeability (6.91 LMH/bar) and rejection (a molecular weight cutoff of 1000 Da or less) and to form a stable γ-Al2O3 phase. In the case of a membrane that was surface-modified with (3-chloropropyl)-trimethoxysilane, the permeability of toluene and hexane was 2.3 and 4.3 LMH/bar, respectively. The newly developed ceramic membrane showed excellent permeability and separation properties, as well as potential effectiveness for organic solvent nanofiltration applications.
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