当前位置:Home > Online First

Online First

Recent progress on catalysts for low-concentration coal mine gas oxidation

Received Date:2024-04-15 Revised Date:2024-04-29

DOI:10.20078/j.eep.20240501

Abstract:During the coal extraction process, the emission of low-concentration coal mine gas significantly contributes to greenho... Open+
Abstract:

During the coal extraction process, the emission of low-concentration coal mine gas significantly contributes to greenhouse gas emissions. Catalytic oxidation is an effective strategy for converting the coal mine gas to carbon dioxide, thereby alleviating the greenhouse effect. However, the activity and stability of most reported catalysts remain inadequate for widespread application. The reaction mechanisms of coal mine gas oxidation are summarized, and the recent progress and future perspectives for catalyst design are presented. C—H activation is the rate-determining step in coal mine gas oxidation reactions. Noble-metal catalysts with high activity for CH activation and metal oxide catalysts with high thermal stability are widely used for coal mine gas oxidation. Regarding the noble-metal catalysts, the type of active metals significantly influences CH activation. Modification of the supports and the addition of additives can adjust the distribution of active metals. For metal oxide catalysts, modification of catalyst structure and composition can regulate the surface areas, oxygen vacancy concentrations. and chemical bonds, thereby improving catalytic activity. In addition, the water resistance and sulfur resistance of catalysts are vital for the stable oxidation of coal mine gas. The construction of an encapsulated structure and a specilic active metal structure are conducive to water desorption. Furthermore , the addition of dopants can adjust electronic structure of active metals. thus enhancing the water resistance of catalysts. With regard to sulfur resistance, the construction of an encapsulated structure to weaken sulfur adsorption and the addition of a sacrificial component to delay sulfur deactivation are two commonly-used strategies.

Close-

Authors:

  • WU Jinwei
  • ZHANG Mingkang
  • YE Chengyin
  • RUl Zebao*

Units

  • School of Chemical Engineering and Technology, Sun Yatsen University

Keywords

  • Coal mine gas
  • Catalytic oxidation
  • CH activation
  • Water resistance
  • Sulfur resistance

Citation

WU Jinwei, ZHANG Mingkang, YE Chengyin, RUl Zebao. Recent progress on catalysts for low-concentration coal mine gas oxidation[J/OL]. Energy Environmental Protection: 1-9[2024-05-13]. https://doi.org/10.20078/j.eep.20240501.

Relate Article

Add: No.288, Gongxiu Road, Xiaoshan District, Hangzhou City, Zhejiang Province.
Post Code: 311201
Tel: 0571-82989702, 19558121964
E-mail: office@eep1987.com
Website Copyright © Editorial Department of Energy Environmental Protection 京ICP备05086979号