Effects of surfactant properties on pore wetting of membrane distillation

IF 4.9 Q1 ENGINEERING, CHEMICAL
Connor Coolidge , Azal Mohammed Hassan Alhadidi , Wei Wang , Tiezheng Tong
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Abstract

Pore wetting is a major constraint to the performance of membrane distillation (MD) for hypersaline brine treatment. Despite the existence of surfactants with diverse properties, an explicit relationship between the properties of surfactants and their capabilities of inducing pore wetting has yet to be established. In this study, we perform a comparative analysis of the wetting behaviors of various surfactants with different charges and molecular weights in MD desalination. The induction time of surfactants to initiate pore wetting was correlated to the apparent contact angle and surface tension of the feedwater. Our results show that different surfactants resulting in similar feedwater surface tensions can lead to drastically different wetting potential, suggesting that both charge of the head group and molecular weight of surfactants have a significant influence on membrane pore wetting. Further, we demonstrate that parameters that have been commonly used to indicate wetting potential, including apparent contact angle and solution surface tension, are not reliable in predicting the wetting behavior of MD membranes, which is intricately linked with surfactant properties such as charge and molecular size. We envision that our results not only improve our fundamental understanding of surfactant-induced wetting but also provide valuable insights that necessitate thorough consideration of surfactant properties in evaluating wetting potential and membrane wetting resistance for MD desalination.

Abstract Image

表面活性剂特性对膜法蒸馏孔隙润湿的影响
孔隙润湿是膜蒸馏(MD)处理高盐度盐水的一个主要限制因素。尽管存在各种不同性质的表面活性剂,但表面活性剂的性质与其诱导孔隙润湿的能力之间的明确关系尚未建立。在本研究中,我们对不同电荷和分子量的表面活性剂在 MD 海水淡化中的润湿行为进行了比较分析。表面活性剂引发孔隙润湿的诱导时间与给水的表观接触角和表面张力相关。我们的研究结果表明,不同的表面活性剂会导致相似的进水表面张力,从而导致截然不同的润湿电位,这表明表面活性剂头基的电荷和分子量对膜孔润湿有重大影响。此外,我们还证明了通常用于指示润湿潜能的参数,包括表观接触角和溶液表面张力,在预测 MD 膜的润湿行为时并不可靠,因为这与表面活性剂的特性(如电荷和分子大小)密切相关。我们希望我们的研究结果不仅能提高我们对表面活性剂引起的润湿的基本认识,还能提供有价值的见解,使我们在评估 MD 海水淡化的润湿潜能和膜润湿阻力时有必要全面考虑表面活性剂的特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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