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煤阶对注N2驱替CH4效率影响的实验研究

Experimental study on the effect of coal rank on the efficiency of N2 injection on CH4 displacement

  • 摘要: 为明确煤阶主导下煤体注N2驱替CH4的差异化特征,基于煤系气流固耦合综合测试实验系统及孔比表面积与孔径分布测定仪,以煤阶为核心因素、注N2压力为控制变量开展实验,量化驱替参数并结合孔隙结构揭示驱替差异微观机理。实验结果表明,注N2压力升高时,不同煤阶驱替参数呈规律性变化。低阶煤以半开放/半封闭狭缝孔为主,孔隙发育且连通性好,驱替效率为75.91%~92.48%,驱替比从0.47降至0.03;中阶煤孔隙类型丰富,但连通性较差,驱替效率为63.17%~81.37%,驱替比从0.17降至0.03;高阶煤孔隙开放度高,但致密且连通性差,驱替效率为39.97%~69.52%,驱替比从0.09降至0.01。驱替过程中各煤阶均呈收缩变形,遵循“初期快速递减,后期趋于稳定”规律,注N2压力与煤体收缩量呈负相关,低阶煤因孔隙松散,收缩幅值最大,反之,高阶煤最小。综合分析表明,低阶煤因孔隙发育、连通性好,更适配注N2驱替技术,可实现驱替效果与成本的双重优化。

     

    Abstract: This study investigated how coal rank affects the displacement of methane (CH4) by nitrogen (N2) injection under different injection pressures. Experiments were conducted using a laboratory gas-coal coupling testing system, along with surface area and pore size distribution analyses, to quantify displacement performance and explain the role of pore structure. The results show that displacement performance varies systematically with increasing N2 injection pressure across coal ranks. Low-rank coal, which contains well-developed, partly connected slit-shaped pores, showed the best performance, with displacement efficiency ranging from 75.91% to 92.48% and the displacement ratio decreasing from 0.47 to 0.03. Medium-rank coal had more diverse pore types but weaker pore connectivity, resulting in a displacement efficiency of 63.17% to 81.37% and a displacement ratio decreasing from 0.17 to 0.03. High-rank coal had high open pores but a denser structure and poorer connectivity, giving the lowest displacement efficiency, from 39.97% to 69.52%, and a displacement ratio decreasing from 0.09 to 0.01. During displacement, all coal samples experienced shrinkage, which decreased rapidly at first and then gradually stabilized. Coal shrinkage was negatively correlated with N2 injection pressure. Low-rank coal showed the greatest shrinkage because of its looser pore structure, conversely, high-rank coal showed the least. Overall, low-rank coal is more suitable for N2 injection displacement because its well-developed and better-connected pores improve methane recovery while reducing operational costs.

     

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