Progress of research on purification of CH4 from a CH4/CO2/N2 mixture by pressure swing adsorption

IF 5 3区 材料科学 Q2 CHEMISTRY, PHYSICAL Sustainable Energy & Fuels Pub Date : 2024-10-14 DOI:10.1039/D4SE00919C
Shuohao Li, Nuojie Wu, Yuqing Gong and Liang Wang
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Abstract

The high methane (CH4) content of landfill gas, biogas, and coal bed methane (CBM) makes them attractive substitutes for natural gas. Nevertheless, the calorific value of the energy produced by burning as well as the overall effectiveness of energy gas use are both reduced in the presence of impurity gases, such as CO2 and N2. Thus, achieving the effective separation of CH4 from CO2 and N2 is crucial for increasing energy efficiency, reducing the greenhouse effect, and achieving the dual-carbon aim. This is also the key to enriching and concentrating this kind of gas energy and using it efficiently. With a focus on the development of carbon-based materials, zeolite molecular sieves, and metal–organic frameworks in the field of CO2/CH4/N2 separation in recent years, this paper primarily addresses the types of adsorbents, molecular simulation, and process optimization involved in the purification of CH4 by variable pressure adsorption. Finally, the development bottlenecks and application prospects of different adsorbents in CH4 purification applications are foreseen in conjunction with basic research and process evaluation.

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变压吸附法净化 CH4/CO2/N2 混合物中 CH4 的研究进展
垃圾填埋气、沼气和煤层甲烷(CBM)中甲烷(CH4)的含量很高,因此成为天然气的替代品很有吸引力。然而,由于二氧化碳和 N2 等杂质气体的存在,燃烧产生的能量热值以及能源气体的整体利用效率都会降低。因此,实现 CH4 与 CO2 和 N2 的有效分离对于提高能源效率、减少温室效应和实现双碳目标至关重要。这也是富集、浓缩这类气体能源并加以有效利用的关键所在。本文以近年来碳基材料、沸石分子筛和金属有机框架在 CO2/CH4/N2 分离领域的发展为重点,主要探讨了变压吸附法净化 CH4 所涉及的吸附剂类型、分子模拟和工艺优化。最后,结合基础研究和工艺评估,展望了不同吸附剂在 CH4 净化应用中的发展瓶颈和应用前景。
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来源期刊
Sustainable Energy & Fuels
Sustainable Energy & Fuels Energy-Energy Engineering and Power Technology
CiteScore
10.00
自引率
3.60%
发文量
394
期刊介绍: Sustainable Energy & Fuels will publish research that contributes to the development of sustainable energy technologies with a particular emphasis on new and next-generation technologies.
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