专项离子液体吸收CO2的研究进展

Jun Zhang, G. Qu, P. Ning, Yu-huan Liu, Y. Shi, Hui Feng
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引用次数: 1

摘要

与传统离子液体相比,由于具有较高的CO2吸收能力,该离子液体有望取代易挥发、腐蚀性强、高温下易氧化的传统烷醇胺。然而,当它们的吸收能力通过胺官能化比传统离子液体更大时,粘度也会增加。然而,这一不利因素可以通过使用负载型离子液体多孔载体(如多孔SiO2、膜)来克服。本文主要介绍了任务型离子液体在温和条件下吸收CO2的特点。讨论了影响离子液体吸收率和吸收率的主要因素及其在实际应用中的解决方法,并展望了专用离子液体的发展前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Notice of RetractionResearch Progress in Absorption of CO2 Using Task-Specific Ionic Liquids
By contrast with the conventional ionic liquids, owing to the high absorption capacity of CO2, the task-specific ionic liquids are very hopeful to replace the traditional alkanolamine which is volatile, corrosive strongly and easy oxygenated at high temperature. However, when their absorption capacity can be more greatly enhanced by amine functionalization than the conventional ionic liquids,the viscosity will also be increased. Neverthless, this adverse factor can be overcome by making use of supported ionic liquid porous carrier(such as porous SiO2, membranes). ln this paper,the characteristics of the task-specific ionic liquids absorbing CO2 under mild conditions are mainly introduced. The main influence factors on the absorption rate and absorption capacity and the appropriate solutions in practical application are discussed In addition, the developmental prospect of task-specific Ionic Liquids is presented.
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