三轴循环加卸载裂隙砂岩渗透性演化规律研究

The permeability evolution law of fractured sandstone under triaxial cyclic loading and unloading

  • 摘要: 煤层群开采下重复采动引发的煤岩渗透性变化是制约矿井瓦斯抽采的关键因素。为探究重复采动下煤岩渗透性演变规律,开展不同预制裂隙倾角砂岩循环加卸载渗透试验,揭示循环加卸载下裂隙砂岩渗透性演化机理。研究结果表明: ①裂隙砂岩渗透率随时间呈衰减、缓增、突增趋势,每个加载-卸载-应力恢复循环内渗透率的变化由“降-升-降”转为“升-升-降”; ②不同倾角裂隙砂岩随循环加卸载次数增加,失稳破坏加剧,渗透率增长程度增大; ③ 45°与60°倾角裂隙砂岩具有较高偏应力敏感性系数与不可逆渗透率损害率,且偏应力敏感系数随围压增大而减小; ④裂隙倾角通过影响裂隙周围应力场分布,进而影响裂隙的起裂与扩展,最终引起渗透率发生改变,破坏终态下不同倾角裂隙砂岩渗透率提高2~9倍。研究结果对煤层群瓦斯抽采及矿山安全开采意义重大。

     

    Abstract: The permeability change of coal and rock induced by repeated mining during coal seam group exploitation is a key factor restricting mine gas drainage. To explore the permeability evolution law under repeated mining, the permeability tests on fractured sandstone with different prefabricated dip angles were conducted under cyclic loading and unloading. The permeability evolution mechanism was revealed. The results indicated that: ① Fractured sandstone permeability generally declines, then slowly increases and suddenly surges during cyclic loading and unloading. In each cycle, permeability changes from "decrease-increase-decrease" to "increase-increase-decrease". The end of the unloading phase can be used as a pre-extraction point for gas drainage. ② With more cyclic loading and unloading, instability and failure of fractured sandstone with different dip angles intensify, and permeability increases more significantly. ③ Fractured sandstone with a dip angle of 45° and 60° has higher deviatoric stress sensitivity coefficients and irreversible permeability damage rates, and the former decreases with increasing confining pressure. ④ Fracture dip angles affect the stress field around fractures, influencing fracture initiation and propagation, thus altering permeability. At the final failure stage, the permeability of fractured sandstone with different dip angles increases by 2-9 times. The research findings have significant implications for gas drainage in coal seams and safe mining operations.

     

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