Green chemistry-based fabrication of hollow fiber and flat sheet polyimide membranes for CO2/CH4 separation

IF 4.9 Q1 ENGINEERING, CHEMICAL
George V. Theodorakopoulos, Dionysios S. Karousos, Charitomeni M. Veziri, Evangelos P. Kouvelos, Andreas A. Sapalidis, Evangelos P. Favvas
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Abstract

In this work, the successful fabrication of polymeric hollow fiber (HF) and flat sheet (FS) membranes was examined by employing γ-butyrolactone (GBL)-a green and environmentally friendly solvent- for the polymer's dissolution following the principles of green chemistry and sustainability regarding the membrane preparation. In addition, the ternary phase diagram of the P84/GBL/water was constructed and the viscosity of dope solution was measured for different concentrations and temperatures. Their morphological characteristics of the prepared polyimide membranes were investigated through SEM analysis. CO2/CH4 separation measurements under continuous flow were performed to evaluate the efficiency of the membranes for a binary 10/90 vol.% CO2/CH4 gas mixture. The developed green HF and FS membranes exhibited comparable, and in some cases even superior, performance compared to membranes prepared using the conventional and highly toxic NMP solvent, making them highly promising candidates for CO2/CH4 separation, with a real mixture separation factor of ∼58.

Abstract Image

基于绿色化学的CO2/CH4分离中空纤维和平板聚酰亚胺膜的制备
在这项工作中,根据膜制备的绿色化学和可持续性原则,采用绿色环保溶剂γ-丁内酯(GBL)溶解聚合物,成功制备了聚合物中空纤维(HF)和平板(FS)膜。此外,构建了P84/GBL/水的三元相图,并测量了不同浓度和温度下涂料溶液的粘度。通过扫描电镜分析研究了制备的聚酰亚胺膜的形貌特征。在连续流动下进行CO2/CH4分离测量,以评估二元10/90体积%的膜的效率CO2/CH4气体混合物。与使用传统和高毒性NMP溶剂制备的膜相比,开发的绿色HF和FS膜表现出相当的性能,在某些情况下甚至更优越,使其成为非常有前途的CO2/CH4分离候选者,实际混合物分离因子为~58。
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