使用带有氨基环己基的二胺的液胺-固体氨基甲酸相分离系统直接空气捕获CO2

IF 6.7 Q1 ENGINEERING, ENVIRONMENTAL
Soichi Kikkawa, Kazushi Amamoto, Yu Fujiki, Jun Hirayama, Gen Kato, Hiroki Miura, Tetsuya Shishido and Seiji Yamazoe*, 
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引用次数: 6

摘要

液体胺和固体氨基甲酸之间的相分离表现出>;在使用带有氨基环己基的二胺的400ppm CO2流动系统下99%的CO2去除效率。其中,异佛尔酮二胺[IDA;3-(氨基甲基)-3,5,5-三甲基环己胺]表现出最高的CO2去除效率。即使在作为溶剂的H2O中,IPDA也以≥1的CO2/IPDA摩尔比与CO2反应。捕获的CO2在333K下完全解吸,因为溶解的氨基甲酸根离子在低温下释放CO2。IPDA在没有降解的CO2吸附和解吸循环下的可重复使用性,>;99%的效率在直接空气捕获条件下保持100小时,并且高CO2捕获速率(对于1摩尔胺为201毫摩尔/小时)表明使用IPDA的相分离系统在实际使用中是坚固耐用的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Direct Air Capture of CO2 Using a Liquid Amine–Solid Carbamic Acid Phase-Separation System Using Diamines Bearing an Aminocyclohexyl Group

Direct Air Capture of CO2 Using a Liquid Amine–Solid Carbamic Acid Phase-Separation System Using Diamines Bearing an Aminocyclohexyl Group

The phase separation between a liquid amine and the solid carbamic acid exhibited >99% CO2 removal efficiency under a 400 ppm CO2 flow system using diamines bearing an aminocyclohexyl group. Among them, isophorone diamine [IPDA; 3-(aminomethyl)-3,5,5-trimethylcyclohexylamine] exhibited the highest CO2 removal efficiency. IPDA reacted with CO2 in a CO2/IPDA molar ratio of ≥1 even in H2O as a solvent. The captured CO2 was completely desorbed at 333 K because the dissolved carbamate ion releases CO2 at low temperatures. The reusability of IPDA under CO2 adsorption-and-desorption cycles without degradation, the >99% efficiency kept for 100 h under direct air capture conditions, and the high CO2 capture rate (201 mmol/h for 1 mol of amine) suggest that the phase separation system using IPDA is robust and durable for practical use.

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来源期刊
ACS Environmental Au
ACS Environmental Au 环境科学-
CiteScore
7.10
自引率
0.00%
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0
期刊介绍: ACS Environmental Au is an open access journal which publishes experimental research and theoretical results in all aspects of environmental science and technology both pure and applied. Short letters comprehensive articles reviews and perspectives are welcome in the following areas:Alternative EnergyAnthropogenic Impacts on Atmosphere Soil or WaterBiogeochemical CyclingBiomass or Wastes as ResourcesContaminants in Aquatic and Terrestrial EnvironmentsEnvironmental Data ScienceEcotoxicology and Public HealthEnergy and ClimateEnvironmental Modeling Processes and Measurement Methods and TechnologiesEnvironmental Nanotechnology and BiotechnologyGreen ChemistryGreen Manufacturing and EngineeringRisk assessment Regulatory Frameworks and Life-Cycle AssessmentsTreatment and Resource Recovery and Waste Management
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