瓶颈
转化(遗传学)
工艺工程
过程(计算)
生化工程
温室气体
匹配(统计)
能量转换
计算机科学
过程集成
工作(物理)
环境科学
纳米技术
产品(数学)
高效能源利用
风险分析(工程)
系统工程
材料效率
在制品
可再生能源
桥(图论)
钥匙(锁)
化学过程
生产(经济)
工艺设计
工程类
环境经济学
最终产品
作者
Xiaochen Han,Xiaohui Wang,Xintao Li,Mingyu Gao,Qian Wang,Junting Feng
摘要
ABSTRACT CO 2 capture and utilization (CCU) are two important processes to address the gigaton challenges in reducing greenhouse gas emissions. Given that both processes are energy‐intensive, integrating CO 2 capture and utilization (ICCU) can improve energy efficiency and reduce economic costs by eliminating steps such as CO 2 concentration, storage, or capture media regeneration. Aiming at building a bridge between theoretical research and practical application, this review promotes the understanding of high‐temperature ICCU, mild/low‐temperature ICCU, and emerging electro‐/photo‐driven ICCU. The reaction mechanism and technical bottleneck are comprehensively evaluated, which could provide a perspective on the design principle of dual‐functional materials (DFMs) combining synergetic adsorptive and catalytic sites. On this basis, novel strategies are proposed from the viewpoint of chemical process intensification to strive for a thermodynamics and kinetics matching between the capture and in situ conversion processes. It is expected that this review can stimulate more research in the future involving expanding the product range, fabricating long‐term DFMs, developing a workable reactor, optimizing operation conditions, and establishing an industrial demonstration.
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