煤层群分层水力压裂与多层综合压裂增透效果对比研究

    Comparative study on permeability enhancement effect of separate-layer fracturing and multi-layers comprehensive fracturing in coal seam group

    • 摘要: 以西南地区某多煤层瓦斯巷为试验地点,对比实施了分层单一水力压裂和多煤层综合水力压裂,分析了煤层压裂发展全过程,探讨了煤层压入水量对后续钻孔施工的影响,获得了压裂后煤层瓦斯含量和含水率分布规律、以及煤层瓦斯抽采效果,明确了不同压裂方式的有效增透范围。结果表明:煤层压裂分为应力累积、裂缝起裂、裂缝扩展、裂缝多次起裂-扩展、裂缝扩展完成5个阶段;分层压裂的平均压力略高于综合压裂,但压入总水量明显少于综合压裂;分层压裂后煤层瓦斯含量和含水率分别低于和高于综合压裂技术,煤层瓦斯初始抽采体积分数更高,且煤层单孔和钻场的平均瓦斯抽采体积分数达54.1%和43%,较多煤层综合压裂技术提高了14.9%和9%;2种压裂方式的有效增透半径分别达50、40 m,表明分层水力压裂技术能显著提高煤层群压裂的有效增透范围及效果;分层压裂技术能减少煤层压入水量,降低后续瓦斯钻孔施工时发生抱钻等不良现象。

       

      Abstract: In this paper, a gas roadway with multiple coal seams in southwest China is taken as the test site, and the separate-layer hydraulic fracturing and multilayers comprehensive hydraulic fracturing are carried out. This paper analyzes the whole process of coal seam fracturing development, discusses the influence of water injection volume in coal seam on subsequent drilling construction, and obtains the distribution law of gas content and water content of coal seam after fracturing, and the gas drainage effect. And the fracturing influence ranges of the two fracturing methods are obtained. The results show that the hydraulic fracturing in coal seam composes of five stages: stress accumulation, fracture initiation, fracture propagation, multiple fracture initiation and propagation, and fracture propagation completion. Compared with the multilayers comprehensive hydraulic fracturing, the average pressure of separate-layer hydraulic fracturing is slightly higher, but the total water injection volume is significantly less. The gas content and water content of coal seam after separate-layer hydraulic fracturing are lower and higher than those of comprehensive fracturing technology, respectively; and the initial gas drainage concentration of coal seam is also higher. In addition, the average gas drainage concentration of single hole and drilling field are 54.1% and 43%, increased by 14.9% and 9% compared with comprehensive fracturing technology. And the effective fracturing influence radius of separate-layer fracturing and multilayers comprehensive fracturing reaches about 50 m and 40 m, respectively. This indicates that the separate-layer hydraulic fracturing technology can significantly improve the effective influence range and effect of seam permeability improvement in coal seam group. Moreover, the separate-layer hydraulic fracturing technology can reduce the water injection volume in coal seam, decreasing the bad phenomena in the subsequent drilling construction of gas drainage borehole, such as sticking drilling.

       

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