19 / 2025-11-17 20:10:27
Pressure-Driven Pore Evolution in Coal of Different Maturity Stages and Its Implications for Gas Sequestration
Low-field NMR experiments; Pore structure; Pore size distribution; Pressure pores; Gas storage
Abstract Pending
王洪昆 / 辽宁工程技术大学
A thorough understanding of gas storage and transport mechanisms in coal seams requires a precise characterization of pore structure evolution under dynamic conditions. In this study, we used low-field nuclear magnetic resonance to analyze five highly metamorphosed coal samples from distinct mining regions. Their pore structure, fractal dimensions, and pressure-dependent pore reorganization were systematically investigated. Our results demonstrated that pore development in the samples was dominated by micropores and small pores, with fractal dimensions below 2 revealing low structural heterogeneity. Increasing the pressure from 1 to 6.7 MPa induced a 2%–7% reduction in porosity, accompanied by a redistribution of pore sizes: small pores were proliferated, while the proportion of medium and large pores diminished. Pressure-driven pore restructuring in highly metamorphosed coal is a double-edged sword. While it enhances storage security through “enhanced adsorption,” it simultaneously challenges storage capacity and injection efficiency by “compressing pores” and “degrading flow.” These pressure-driven structural transformations provide critical insights into gas storage capacity and transport dynamics, with direct implications for optimizing coalbed methane extraction and CO2 sequestration strategies.

 
Important Date
  • Conference Date

    Nov 27

    2025

    to

    Nov 29

    2025

  • Nov 29 2025

    Draft paper submission deadline

  • Nov 29 2025

    Registration deadline

Sponsored By
重庆大学
Organized By
煤矿灾害动力学与控制全国重点实验室
重庆大学资源与安全学院
《Earth Energy Science》/地球能源科学(英文)
中煤科工集团重庆研究院有限公司
Supported By
自然资源部复杂构造区非常规天然气评价与开发重点实验室
重庆市地质矿产勘查开发集团有限公司
InterPore China (国际多孔介质学会中国分会)
贵州大学
西南石油大学