Ruohan Zhao , Chunying Zhu , Taotao Fu , Xiqun Gao , Youguang Ma
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引用次数: 0
摘要
二氧化碳(CO2)被公认为造成温室效应的主要因素。微通道反应器可用于强化化学过程,解决有限的气液传质问题,在二氧化碳捕集方面具有显著优势。本研究选择了离子液体(1-乙基-3-甲基咪唑氯化物,EmimCl)和乙醇胺(MEA)以 1:1 的摩尔比混合制备的深共晶溶剂(DES),用于在微通道中捕获二氧化碳。研究了 DES 的结构和物理性质,并分析了气体和液体流速、含水量和二氧化碳浓度对二氧化碳吸收特性的影响。水含量的增加不仅能显著降低 DES 的粘度,还能改善其二氧化碳吸收性能。此外,通过核磁共振谱获得了该 DES 吸收 CO2 的机理,表明其吸收过程是 CO2 与 MEA 之间的快速化学吸收过程。EmimCl 中的 Cl- 可以稳定质子化胺,防止其与 MEACO2- 进一步反应,从而进一步提高二氧化碳的吸收率。
Study on CO2 absorption by EmimCl-MEA deep eutectic solvent in microchannel
Carbon dioxide (CO2) is widely acknowledged as the primary contributor to the greenhouse effect. Microchannel reactors can be used for enhancing chemical processes, solving the problems of limited gas-liquid mass transfer, and have significant advantages in CO2 capture. In this study, the deep eutectic solvent (DES) prepared by mixing ionic liquid (1-ethyl-3-methylimidazolium chloride, EmimCl) and Ethanolamine (MEA) in a molar ratio of 1:1 was selected for CO2 capture in a microchannel. The structure and physical properties of the DES were investigated, and the effects of gas and liquid flow rates, water content, and CO2 concentration on the CO2 absorption properties were analyzed. The increase of the water content not only significantly reduces the viscosity of DES, but also improves the CO2 absorption performance. In addition, the CO2 absorption mechanism of this DES has been obtained by the NMR spectrum, showing that the absorption process is a rapid chemical absorption process between CO2 and MEA. The Cl- of EmimCl could stabilize the protonated amine and prevent it from further reacting with MEACO2-, furthermore increasing the CO2 absorption rate.
期刊介绍:
Chemical Engineering and Processing: Process Intensification is intended for practicing researchers in industry and academia, working in the field of Process Engineering and related to the subject of Process Intensification.Articles published in the Journal demonstrate how novel discoveries, developments and theories in the field of Process Engineering and in particular Process Intensification may be used for analysis and design of innovative equipment and processing methods with substantially improved sustainability, efficiency and environmental performance.
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