低煤阶厚煤层水平井方位及选层——以吉尔嘎朗图地区为例

Optimization method of horizontal well orientation and layer selection in low-rank thick coal seam: A case study of Jiergalangtu area

  • 摘要: 为解决低煤阶厚煤层水平井钻井方位及层位优选难题,基于低阶煤应力敏感性机理和多斜交裂缝水平井产气模型,定量研究了水平应力差、裂缝对水平井方位的影响。通过弱面理论、断裂力学建立起煤层气井井壁稳定计算模型,提出针对厚煤层的测(录)井-脆性指数综合选层方法。研究表明:①沁南煤岩压缩系数为0.038~0.077,鄂东煤岩压缩系数为0.025~0.074;低阶煤比高阶煤的压缩系数大,含水湿样比干样的压缩系数大;升压时的煤岩压缩系数比降压时大,裂缝样压缩系数降幅大于自然样;②水平应力差会导致渗透率各向异性,压缩系数和水平应力差是影响水平井方位的两个最重要因素,低煤阶水平应力差大于8 MPa或高煤阶水平应力差大于14 MPa后,最优方位近似平行于最小水平主应力方向。裂缝与井眼夹角大于60°后产气最优,缝宽大于3 mm后产气量对缝宽的敏感度明显降低;③面割理倾角小于25°时,沿面割理倾向的安全钻井液密度窗口最大,沿面割理走向的安全钻井液密度窗口最小;倾角大于25°后,沿面割理倾向的安全钻井液密度窗口仍最大,走向与倾向之间的安全钻井液密度窗口最小;④吉尔嘎朗图地区水平井优选方位为NE90°~114°,JM-X井生产实践表明该选层方法能有效指导厚煤层选层。

     

    Abstract: In order to solve the optimization problem of horizontal well orientation and layer selection in low-rank thick coal seam, based on low-rank coal stress sensitivity mechanism and horizontal well gas production model with multiple oblique fractures, the influence of horizontal stress difference and fracture on horizontal well orientation are studied quantitatively.Through weak plane theory and fracture mechanics, the wellbore stability calculation model of coalbed methane (CBM) well is established, the comprehensive selection method of geologic logging and fragility index for thick coal seam is put forward.The research shows that:① the coal compression coefficient in southern Qinshui basin is 0.038-0.077, the coal compression coefficient in eastern Ordos basin is 0.025-0.074, the compression coefficient of low-rank coal is greater than that of high-rank coal, the compression coefficient of wet coal sample is greater than that of dry coal sample; when pressure rises, the compressibility coefficient is larger than that of depressurization, the decreasing range of crack sample is greater than that of natural sample.② The horizontal stress difference would lead to permeability anisotropy.The compression coefficient and horizontal stress difference are the two most important impact factors of horizontal well orientation, when horizontal stress difference is greater than 8 MPa in low-rank coal seam or 14 MPa in high-rank coal seam, the optimal orientation is approximately parallel to the direction of minimum horizontal stress.Gas production is optimal when the angle between wellbore and fracture is greater than 60°, the sensitivity of gas production on fracture width decreases significantly when fracture width is greater than 3 mm.③ When face cleat dip angle is less than 25°, drilling along dip direction and strike direction are the maximum and minimum safe drilling fluid density window, respectively.When face cleat dip angle is greater than 25°, drilling along dip direction is still the maximum safe drilling fluid density window, but the minimum safe drilling fluid density window is between dip direction and strike direction.④ The optimal horizontal well orientation in Jiergalangtu area is NE90°-114°, the gas production of well JM-X indicates the method could guide the layer selection of thick coal seams effectively.

     

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