Low-concentration methane removal: what can we learn from high-concentration methane conversion?

Yun Wang; Haiyuan Zhang; Jie Zhang; Yijie Fu; Yuyin Wang; Yang Bai; Xin Feng; Jiahua Zhu; Xiaohua Lu; Liwen Mu; Wei Li

doi:10.1039/d3cy00810j

Low-concentration methane removal: what can we learn from high-concentration methane conversion?

Yun Wang, Haiyuan Zhang, Jie Zhang, Yijie Fu, Yuyin Wang, Yang Bai, Xin Feng, Jiahua Zhu, Xiaohua Lu, Liwen Mu, Wei Li

College of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Methane (CH₄) is the world's second most potent greenhouse gas after carbon dioxide (CO₂). Removal of low concentrations of CH₄ from the environment by an advanced oxidation process (i.e., total oxidation to CO₂) powered by solar energy is attractive. However, studies of solar-driven methane oxidation have focused on the selective conversion of CH₄ to high-value chemicals, where methane usually occurs in high concentrations. In this paper, the related work of selective conversion of high-concentration CH₄ is introduced first, and the mechanism of selective conversion of CH₄ is discussed. The “bad” reaction (i.e.,

Original language	English
Pages (from-to)	6392-6408
Number of pages	17
Journal	Catalysis Science and Technology
Volume	13
Issue number	22
DOIs	https://doi.org/10.1039/d3cy00810j
State	Published - 20 Jul 2023

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title = "Low-concentration methane removal: what can we learn from high-concentration methane conversion?",

abstract = "Methane (CH4) is the world's second most potent greenhouse gas after carbon dioxide (CO2). Removal of low concentrations of CH4 from the environment by an advanced oxidation process (i.e., total oxidation to CO2) powered by solar energy is attractive. However, studies of solar-driven methane oxidation have focused on the selective conversion of CH4 to high-value chemicals, where methane usually occurs in high concentrations. In this paper, the related work of selective conversion of high-concentration CH4 is introduced first, and the mechanism of selective conversion of CH4 is discussed. The “bad” reaction (i.e.,",

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T2 - what can we learn from high-concentration methane conversion?

AU - Wang, Yun

AU - Zhang, Haiyuan

AU - Zhang, Jie

AU - Fu, Yijie

AU - Wang, Yuyin

AU - Bai, Yang

AU - Feng, Xin

AU - Zhu, Jiahua

AU - Lu, Xiaohua

AU - Mu, Liwen

AU - Li, Wei

PY - 2023/7/20

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AB - Methane (CH4) is the world's second most potent greenhouse gas after carbon dioxide (CO2). Removal of low concentrations of CH4 from the environment by an advanced oxidation process (i.e., total oxidation to CO2) powered by solar energy is attractive. However, studies of solar-driven methane oxidation have focused on the selective conversion of CH4 to high-value chemicals, where methane usually occurs in high concentrations. In this paper, the related work of selective conversion of high-concentration CH4 is introduced first, and the mechanism of selective conversion of CH4 is discussed. The “bad” reaction (i.e.,

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Low-concentration methane removal: what can we learn from high-concentration methane conversion?

Abstract

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