离子液体膜碳捕获与分离

M. Zunita, R. Hastuti, A. Alamsyah, K. Khoiruddin, I. Wenten
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引用次数: 26

摘要

从工业气体(即烟道气和天然气)中捕获二氧化碳是减少酸性气体排放对环境影响的关键过程。然而,由于溶剂的性质,通常由胺基溶剂进行的二氧化碳捕获面临操作问题。近年来,离子液体因其蒸气压低(接近于零)、稳定性高以及结构和性能可调而成为取代胺基溶剂的有希望的候选者。功能化的有机硅具有易于再生、高吸收能力和对CO2的选择性等优点。功能化膜捕集技术与膜捕集技术的结合为CO2捕集技术开辟了新的领域。本文综述了离子液体膜(ILMs)在CO2捕集中的最新应用进展,包括负载型离子液体膜(SILMs)、聚离子液体膜(PILMs)、聚合物- il复合膜、混合基质膜,重点介绍了离子液体膜接触器的研究进展。并讨论了CO2在il中的吸收机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ionic Liquid Membrane for Carbon Capture and Separation
ABSTRACT Carbon dioxide capture from industrial gases (i.e., flue gases and natural gas) is a crucial process for reducing the environmental impacts of acid gas emissions. However, carbon dioxide capture that is generally performed by amine-based solvent faces operational problems due to the properties of the solvent. Recently, ionic liquids (ILs) have emerged as promising candidates for replacing the amine-based solvent due to their low vapor pressure (near-zero), high stability, as well as tunable structure and properties. The functionalized ILs are considered superior in terms of their ease of regeneration as well as high absorption capacity and selectivity toward CO2. Combining the functionalized ILs with membrane processes has opened up a new horizon in CO2 capture technology. This review comprehensively summarizes the latest developments in the application of ionic liquid membranes (ILMs) for CO2 capture, including supported ILMs (SILMs), poly-ILMs (PILMs), polymer-IL composite membranes, mixed-matrix-membranes, with special attention to ILM contactors. The absorption mechanisms of CO2 in the ILs are pictured and discussed.
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