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现代矿业 ›› 2026, Vol. 42 ›› Issue (05): 222-228.

• 安全·环保 • 上一篇    下一篇

煤中CH4与CO2吸附解吸滞后的分子研究

曹建军 梁双峰 代 兵   

  1. 郑州煤电股份有限公司芦沟煤矿
  • 出版日期:2026-05-25 发布日期:2026-06-18

Molecules Study on Adsorption-Desorption Hysteresis of CH4 and CO2 in Coal

  1. Lugou Coal Mine,Zhengzhou Coal Industry & Electric Power Co.,Ltd.
  • Online:2026-05-25 Published:2026-06-18

摘要: 为了揭示 CH4和 CO2在煤中吸附—解吸滞后现象的本质机理,采用巨正则蒙特卡罗 与分子动力学模拟相结合的方法,从分子尺度进行了 CH4和 CO2在煤中吸附—解吸行为的研究。 通过系统分析吸附构型、孔隙结构、能量分布和吸附热演化等多维数据,建立了完整的吸附—塑性 变形—结构滞后—吸附滞后机理链。研究结果表明:气体吸附会诱发煤基质发生显著的塑性膨 胀,且这一结构变形在解吸过程中具有不可逆性;CO2比 CH4能诱导更显著的煤基质塑性变形,这 不仅使其具有更高的吸附容量,更导致其产生更宽阔的吸附—解吸滞后回线;在解吸过程中,塑性 变形锁定的孔隙结构和深能级吸附位点极大地增强了 CO2的滞留能力。因此,传统的刚性结构模 型在研究煤对 CH4/CO2气体吸附行为时存在一定的误差,通过引入柔性模型可以更完美地揭示煤 对气体的吸附行为。

关键词: 煤层气开采, 吸附解吸, 分子动力学, 吸附膨胀

Abstract: In order to reveal the essential mechanism of adsorption-desorption hysteresis of CH4 and CO2 in coal,the adsorption-desorption behavior of CH4 and CO2 in coal is studied from the molecular scale by using the combination of grand canonical Monte Carlo and molecular dynamics simulation.A complete adsorption-plastic deformation-structure hysteresis-adsorption hysteresis mechanism chain is established by systematically analyzing multi-dimensional data such as adsorption configuration,pore structure,ener⁃ gy distribution and adsorption thermal evolution.The results show that gas adsorption can induce significant plastic expansion of coal matrix,and this structural deformation is irreversible in the desorption process. CO2 can induce more significant plastic deformation of coal matrix than CH4,which not only makes it have higher adsorption capacity,but also leads to a wider adsorption-desorption hysteresis loop.During the de⁃ sorption process,the plastic deformation-locked pore structure and deep-level adsorption sites greatly en⁃ hance the retention capacity of CO2. Therefore,the traditional rigid structure model has some errors in studying the adsorption behavior of coal to CH4/CO2 gas. By introducing a flexible model,the adsorption be⁃ havior of coal to gas can be more perfectly revealed.

Key words: coalbed methane mining, adsorption-desorption, molecular dynamics, adsorption expan? sion