新兴的纳米材料结合膜用于气体分离和渗透蒸发,朝着能量效率的应用

Haoze Zeng , Shanshan He , Seyed Saeid Hosseini , Bin Zhu , Lu Shao
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引用次数: 48

摘要

气体分离(GS)和渗透蒸发(PV)是两个重要的过程,主要基于溶液扩散机制,具有挑战性的气体和蒸汽分子的运输和分离。各种类型的当代纳米材料,如共价有机框架(COFs)和金属有机框架(MOFs)已经显示出具有可调表面的独特通道,这些通道控制着目标分子的运输和分离。通过将新兴纳米材料掺入传统聚合物膜的结构中,揭示了新的机会,并产生了几个优势,特别是性能的提高和能耗的降低。鉴于GS和PV工艺在化学工业和能源领域的广泛应用,本文从溶液扩散理论的角度综述了膜分子分离过程中气体分离和渗透蒸发的原理。此外,本文还从不同的角度对含新兴纳米材料的GS和PV膜的现状进行了全面的讨论。此外,还介绍了纳米材料混合基质膜(MMMs)的应用现状。最后,对新型纳米材料复合膜的发展前景和未来发展方向进行了展望,以促进高效能膜向工业应用方向的快速发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Emerging nanomaterial incorporated membranes for gas separation and pervaporation towards energetic-efficient applications

Emerging nanomaterial incorporated membranes for gas separation and pervaporation towards energetic-efficient applications

Gas separation (GS) and pervaporation (PV) mainly based on solution-diffusion mechanism, are two important processes for the challenging transport and separation of gaseous and vapor molecules. Various types of contemporary nanomaterials such as covalent organic frameworks (COFs) and metal organic frameworks (MOFs) have demonstrated unique channels with tuneable surface that govern transport and separation of targeted molecules. New opportunities have been revealed through incorporation of emerging nanomaterials into the structure of conventional polymeric membranes and resulted in several advantages notably improved performance and reduced energy consumptions. Due to the broad applications of GS and PV processes in the chemical industry and energy sector, the present manuscript aims to review the principle for gas separation and pervaporation in membrane molecular separation process in terms of solution-diffusion theory. In addition, the current status of membranes containing emerging nanomaterials for GS and PV are discussed comprehensively from different aspects. Furthermore, the current applications of nanomaterials incorporated mixed matrix membranes (MMMs) are described. Finally, the perspectives and future directions of remarkable performance membranes incorporated with diverse emerging nanomaterials are explained so as to facilitate the rapid advancement of energetic-efficient membranes toward practically industrial applications.

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