Membrane-cryogenic hybrid CO2 capture—A review

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Abstract

The membrane-cryogenic hybrid process is a promising CO2 capture process, which combines the advantages of membrane and cryogenic, such as high efficiency (up to 98 % CO2 captured) and low energy consumption (specific energy consumption around 1.7 MJ/kg CO2 avoided). Through pretreatment by membranes, CO2 concentration can be increased, which makes it possible to separate CO2 via phase change in the cryogenic unit. This work reviews the current status of the development of membrane-cryogenic hybrid processes. The synergy between membrane and cryogenic separation is summarized to identify the bottleneck of such processes and provide insights for process improvement. It was found that cold temperatures would be beneficial to reduce CO2 activation energy and then improve CO2 selectivity of membranes. To further improve the CO2 separation performance, the potential intensification methods of the membrane-cryogenic hybrid process including cold-membrane synthesis, process optimization via heat integration are discussed and envisioned.

Abstract Image

膜-致冷混合捕集二氧化碳--综述
膜-低温混合工艺是一种很有前景的二氧化碳捕获工艺,它结合了膜和低温的优点,如高效率(二氧化碳捕获率高达 98%)和低能耗(避免的比能耗约为 1.7 兆焦/千克二氧化碳)。通过膜预处理,可以提高二氧化碳浓度,从而可以在低温装置中通过相变分离二氧化碳。这项工作回顾了膜-低温混合工艺的发展现状。总结了膜与低温分离之间的协同作用,以找出此类工艺的瓶颈,并为工艺改进提供启示。研究发现,低温有利于降低二氧化碳活化能,进而提高膜的二氧化碳选择性。为进一步提高二氧化碳分离性能,讨论并展望了膜-低温混合工艺的潜在强化方法,包括冷膜合成、通过热集成优化工艺等。
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