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深部煤层单段/多段水力压裂增透效果对比
  • Title

    Comparison analysis on permeability improved effect of single and multi section hydraulic fracturing in deep depth seam

  • 作者

    张春华张勇志李江涛李腾达

  • Author

    Zhang Chunhua Zhang Yongzhi Li Jiangtao Li Tengda

  • 单位

    辽宁工程技术大学矿业技术学院辽宁工程技术大学安全科学与工程学院煤科集团沈阳研究院有限公司

  • Organization
    College of Mining Technology, Liaoning Technical University College of Safety Science and Engineering, Liaoning
    Technical University Shenyang Research Institute, China Coal Technology and Engineering Group
  • 摘要
    为对比深部煤层钻孔内单段和多段水力压裂增透效果,基于谢桥煤矿待揭8煤层赋存条件,分别建立了单段和多段水力压裂增透模型,运用RFPA2D-Flow软件,模拟分析了水力压裂影响区内煤层水压场、应力场、裂隙场和渗透场特征和规律,并进行了效果验证。结果表明:单段压裂起裂时的煤体孔隙水压为7 MPa,多段压裂起裂时的煤体孔隙水压为16 MPa;煤层起裂后,单段压裂时钻孔中部煤体产生了明显的应力集中,而多段压裂时煤体应力分布虽有起伏但无明显应力集中;单段压裂时裂隙主要在钻孔中部位置向顶底板萌发延伸,有效压裂面积较小,多段压裂时各压裂段均可产生类似的裂隙场,有效压裂面积大;单段压裂时煤体渗透系数最大可达初值的249倍,多段水力压裂时最大可达初值的263倍。与钻孔单段水力压裂工艺相比,多段水力压裂可有效提高钻孔瓦斯抽采效果。
  • Abstract
    In order to compare the permeability effects of a single section and multi section hydraulic fracturing in the deep seam boreholes, based on the depositio n conditions of the proposed opened No.8 seam in Xieqiao Mine, a single section and multi section hydraulic fracturing and permeability improved models were individu ally established.A RFPA2D-FIow software was applied to simulate and analyze the features and law of the in-seam water pressure field, stress field, crack field and per meability field within the hydraulic fracturing influence zone and the effect verifications were conducted.The results showed that the pore pressure in the coal mass at th e initial fracturing of the single section fracturing was 7 MPa and the pore pressure of the coal mass at the initial fracturing of the multi section fracturing was16 MPa.W hen the fracturing operation started in the seam, during the single section fracturing, there was an obvious stress concentration occurred in the borehole middle part of t he seam.And when a multi section fracturing was in operation, the stress distribution of the coal mass would have ups and downs and would not have an obvious stress concentration. During the single section fracturing operation, the cracks would be expanded from the middle location of the borehole to the roof and floor, the effective f ractured area would be small.In the multi section fracturing operation, each fracturing section would cause a similar crack field and the effective fracturing area would b e large.During the single section fracturing operation, the permeability coefficient of the coal mass would be 249 times higher than the initial value .During the multi secti on hydraulic fracturing operation, the permeability coefficient of the coal mass would be 263 times higher than the initial value.In comparison with the single section hyd raulic fracturing of the borehole, the multi section hydraulic fracturing could effectively improve the gas drainage effect of the borehole.
  • 关键词

    深部开采多段水力压裂孔隙水压裂隙煤层增透瓦斯抽采

  • KeyWords

    deep mining; multi section hydraulic fracturing; pore pressure; cracks; coal seam permeability improvement; gas drainage;

  • 基金项目(Foundation)
    国家自然科学基金资助项目(51304112);辽宁省高等学校优秀人才支持计划资助项目(LJQ2015046);辽宁工程技术大学优秀青年教师提升计划资助项目(2015年度);
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