考虑割理的深煤层水平井多段分簇间距优化研究

    Optimization of multi-stage cluster spacing in deep coal seam horizontal wells considering cleat

    • 摘要: 为研究水平井多段多簇裂缝在割理发育的深部煤储层扩展情况,基于扩展有限元,考虑缝间干扰和诱导应力场,创建了多段多簇裂缝扩展模型;借助Python语言的前处理二次开发,在模型中加入大量近似正交的割理裂隙,分析了簇间距、压裂顺序和段间距对多裂缝扩展的影响,通过查询裂缝沟通割理组数,来验证压裂效果的优劣。模拟结果表明:簇间距在20 m,段间距控制在40~45 m时,裂缝沟通割理组数相对较多,且受到缝间干扰和诱导应力场影响较小,裂缝长度最优;在不同压裂顺序对多裂缝扩展的影响方面,压裂效果由优到劣排列为:顺序压裂>交替压裂>同步压裂;模型计算结果与现场应用吻合度较高,第2段压裂施工与模拟结果综合符合率为96.5%,第3段压裂施工与模拟结果综合符合率为93.4%。

       

      Abstract: In order to study the horizontal well multi-segment multi-cluster fracture extension in the deep coal reservoir where the cleat fissures are developed, a multi-segment multi-cluster fracture extension model is created based on the extended finite element and taking into account the inter-seam interference and the induced stress field. With the secondary development of pre-processing in Python language, a large number of approximately orthogonal cleat fissures were added into the model. The effects of cluster spacing, fracturing sequence and segment spacing on multi-fracture extension were analyzed, and the advantages and disadvantages of fracturing effect were verified by querying the number of fracture-communicating cutting groups. The simulation results show that when the cluster spacing is 20 m and the segment spacing is 40-45 m, the number of fracture communication cutting groups is relatively high, and the fracture length is optimal due to the small influence of inter-seam interference and induced stress field; at the aspect of the influence of different fracturing sequences on the extension of multi-fractures, the fracturing effects are ranked from excellent to poor: sequential fracturing > alternating fracturing > synchronous fracturing. The results of modeling and field application are in good agreement, with 96.5% for the second fracturing section and 93.4% for the third fracturing section.

       

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