Unraveling the Potential of Electrochemical pH-Swing Processes for Carbon Dioxide Capture and Utilization

软件部署 温室气体 环境科学 工艺工程 生化工程 二氧化碳 碳酸氢盐 过程(计算) 生命周期评估 计算机科学 工艺系统 海洋酸化 生产(经济) 环境经济学 化学 气候变化 工程类 生态学 宏观经济学 有机化学 经济 生物 操作系统
作者
Thanh Ngoc-Dan Cao,Seth W. Snyder,Yu-I Lin,Yupo J. Lin,Suraj Negi,Shu-Yuan Pan
出处
期刊:Industrial & Engineering Chemistry Research [American Chemical Society]
卷期号:62 (49): 20979-20995 被引量:13
标识
DOI:10.1021/acs.iecr.3c02183
摘要

Global warming, driven by the accumulation of anthropogenic greenhouse gases, particularly CO2, in the atmosphere, has garnered significant attention due to its detrimental environmental impacts. To combat this critical issue, the deployment of CO2 capture and utilization (CCU) strategies has been considered as one of the technology-based solutions, leading to extensive scientific and engineering research. Electrochemical pH-swing (EPS) processes offer a promising approach to diverse CCU pathways, such as the delivery of pure CO2 gas, the delivery of bicarbonate (e.g., for microalgae cultivation), and the formation of carbonate minerals. In this study, we discuss several CCU pathways using EPS and provide an in-depth analysis of its mechanisms and potential applications, outlining its limitations from both thermodynamic and kinetic standpoints. The EPS process has demonstrated remarkable capabilities, achieving a CO2 capture efficiency of over 90% and unlocking valuable opportunities for CCU applications. We also develop an initial techno-economic assessment and provide the perspectives and challenges for future development and deployment of EPS. This study sheds light on the integration of EPS with CCU, closing the carbon cycle by effectively utilizing the products generated through the process, such as carbonate minerals and bicarbonate solution. For instance, the bicarbonate product can serve as a viable feedstock for bicarbonate-based microalgae production systems, with the added benefit of reducing costs by 40-80% compared to traditional gaseous CO2 delivery approaches. By integration of electrochemical technologies with CCU methods, this study underscores the immense potential for mitigating CO2 emissions and advancing sustainable practices to combat global warming. This study not only addresses the urgent need for effective solutions but also paves the way for a greener and more sustainable future.

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