燃烧后碳捕获中的促进传输膜：聚合物材料的最新进展和实际应用面临的挑战

IF 10.7 1区工程技术 Q1 CHEMISTRY, PHYSICAL

Green Energy & Environment Pub Date : 2024-04-29 DOI:10.1016/j.gee.2024.04.010

Zihan Wang, Zhien Zhang, Mohamad Reza Soltanian, Ruizhi Pang

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引用次数: 0

摘要

用于燃烧后碳捕集的促进传输膜是实现高效和大规模捕集的技术之一。其核心原理是利用一氧化碳对载体的亲和力实现高效分离，并打破罗布森上限。本文回顾了促进传输膜在聚合物材料、原理和现阶段面临的问题等方面的研究进展。首先，我们简要介绍了促进传输膜的传输机理。然后介绍了过去五年中用于 CO/N 分离的促进传输膜的几种主要聚合物的研究进展。此外，我们还分析了促进传输膜面临的主要挑战，包括水的影响、温度的影响、载体的饱和效应以及工艺配置。最后，我们还深入探讨了促进传输膜所面临的挑战和竞争力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Facilitated transport membranes in post-combustion carbon capture: Recent advancements in polymer materials and challenges towards practical application

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Facilitated transport membranes in post-combustion carbon capture: Recent advancements in polymer materials and challenges towards practical application

Facilitated transport membranes for post-combustion carbon capture are one of the technologies to achieve efficient and large-scale capture. The central principle is to utilize the affinity of CO for the carrier to achieve efficient separation and to break the Robson upper bound. This paper reviews the progress of facilitated transport membranes research regarding polymer materials, principles, and problems faced at this stage. Firstly, we briefly introduce the transport mechanism of the facilitated transport membranes. Then the research progress of several major polymers used for facilitated transport membranes for CO/N separation was presented in the past five years. Additionally, we analyze the primary challenges of facilitated transport membranes, including the influence of water, the effect of temperature, the saturation effect of the carrier, and the process configuration. Finally, we also delve into the challenges and competitiveness of facilitated transport membranes.

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来源期刊

Green Energy & Environment Energy-Renewable Energy, Sustainability and the Environment

CiteScore

16.80

自引率

3.80%

发文量

332

审稿时长

12 days

期刊介绍： Green Energy & Environment (GEE) is an internationally recognized journal that undergoes a rigorous peer-review process. It focuses on interdisciplinary research related to green energy and the environment, covering a wide range of topics including biofuel and bioenergy, energy storage and networks, catalysis for sustainable processes, and materials for energy and the environment. GEE has a broad scope and encourages the submission of original and innovative research in both fundamental and engineering fields. Additionally, GEE serves as a platform for discussions, summaries, reviews, and previews of the impact of green energy on the eco-environment.