Development of novel thin film composite reverse osmosis membranes for desalination

H. Qiblawey, H. Kumar, M. Nasser, A. Benamor, M. Al‐Ghouti
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引用次数: 1

Abstract

Microporous Polyetherimide (PEI) membranes were prepared by wet phase inversion at different temperatures. The thin film composites (TFC) of polyamide on microporous PEI were prepared using meta-Phenylenediamine (MPD) and 1,3,5-Benzenetricarbonyl chloride (BTC). The ATR FTIR characterization showed the formation of polyamide (PA) on microporous PEI membrane, whereas scanning electron microscopy (SEM) revealed that a thin film of polyamide is formed on microporous PEI. The cross-sectional SEM of PEI prepared at 60 °C, showed finger like morphology and sparingly distributed balloon like morphology for PEI synthesized at 80 °C. The performance of PEI membranes and PA TFCs were ascertained by studying permeation of water and rejection of sodium chloride by reverse osmosis. The polyamide TFC with hydrophobic PEI support structures exhibited permeation of 28 to 50 lm-2h-1, with 98 – 95 % 2000 ppm NaCl rejection at 60 bar pressure.
海水淡化用新型薄膜复合反渗透膜的研制
采用湿相转化法在不同温度下制备了聚醚酰亚胺(PEI)微孔膜。采用间苯二胺(MPD)和1,3,5-苯三羰基氯(BTC)制备了聚酰胺微孔PEI薄膜复合材料(TFC)。ATR - FTIR表征显示聚酰胺(PA)在微孔PEI膜上形成,扫描电镜(SEM)显示聚酰胺薄膜在微孔PEI膜上形成。60°C时制备的PEI的横断面SEM显示,80°C时合成的PEI为手指状形态和少量分布的球囊状形态。通过反渗透对水的渗透性和对氯化钠的截除率的研究,确定了PEI膜和PA膜的性能。具有疏水PEI支撑结构的聚酰胺TFC的渗透率为28 ~ 50 lm-2h-1,在60 bar压力下,2000 ppm NaCl的截留率为98 ~ 95%。
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