Experimental study on the performance of a highly efficient NE-1 absorbent for CO2 capture

IF 2.7 4区环境科学与生态学 Q3 ENERGY & FUELS Greenhouse Gases: Science and Technology Pub Date : 2024-04-08 DOI:10.1002/ghg.2272

Chenzhi Huang, Yongda Cao, Yaxin Li, Qi Li, Qiang Liu, Lin Xia, Xiujun Peng, Hairong Yue

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Abstract

CO₂ capture by absorption and stripping with aqueous amine is a well-understood and widely used technology. However, drawbacks still exist in the practical applications, such as high energy consumption and easy degradation of the absorbents during the desorption process. In this paper, a novel NE-1 absorbent was developed, and its suitable operating conditions were determined: concentration (45 wt.%), absorption temperature (40 °C), and desorption temperature (100 °C). The NE-1 absorbent exhibits a high CO₂ absorption capacity of 3.73 mol/kg, 1.33 times that of 30% monoethanolamine (MEA). After optimizing with carbamide as a corrosion inhibitor, 45% NE-1a1 may attain an effective CO₂ capacity of 2.5 mol/kg and over 70% desorption rate in five cycles, demonstrating excellent cycling stability performance. The research results have significant implications for developing an efficient and stable commercial carbon capture solvent and promoting the development of carbon reduction technologies. © 2024 Society of Chemical Industry and John Wiley & Sons, Ltd.

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二氧化碳捕获用高效 NE-1 吸收剂性能的实验研究

通过水胺吸收和汽提捕获二氧化碳是一项广为人知且应用广泛的技术。但在实际应用中仍存在能耗高、解吸过程中吸收剂易降解等缺点。本文开发了一种新型 NE-1 吸收剂，并确定了其合适的操作条件：浓度（45 wt.%）、吸收温度（40 °C）和解吸温度（100 °C）。NE-1 吸收剂的二氧化碳吸收能力高达 3.73 摩尔/千克，是 30% 单乙醇胺（MEA）的 1.33 倍。在使用碳酰胺作为缓蚀剂进行优化后，45% 的 NE-1a1 可在五个循环中达到 2.5 摩尔/千克的有效二氧化碳吸收能力和超过 70% 的解吸率，表现出优异的循环稳定性能。该研究成果对开发高效稳定的商用碳捕集溶剂和促进碳减排技术的发展具有重要意义。© 2024 化学工业协会和约翰-威利-桑普森有限公司版权所有。

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来源期刊

Greenhouse Gases: Science and Technology ENERGY & FUELS-ENGINEERING, ENVIRONMENTAL

CiteScore

4.90

自引率

4.50%

发文量

审稿时长

3 months

期刊介绍： Greenhouse Gases: Science and Technology is a new online-only scientific journal dedicated to the management of greenhouse gases. The journal will focus on methods for carbon capture and storage (CCS), as well as utilization of carbon dioxide (CO2) as a feedstock for fuels and chemicals. GHG will also provide insight into strategies to mitigate emissions of other greenhouse gases. Significant advances will be explored in critical reviews, commentary articles and short communications of broad interest. In addition, the journal will offer analyses of relevant economic and political issues, industry developments and case studies. Greenhouse Gases: Science and Technology is an exciting new online-only journal published as a co-operative venture of the SCI (Society of Chemical Industry) and John Wiley & Sons, Ltd