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沁水盆地郑庄区块煤层气水平井钻井体系优化

Optimization of drilling system for CBM horizontal wells in Zhengzhuang Block of Qinshui Basin

  • 摘要: 郑庄区块位于沁水盆地西南部,主产气层位为山西组3号煤和太原组15号煤,区内煤层赋存特征以及含气性无论从垂向上还是横向上均差异较大。分别对3号煤和15号煤的主裂缝延伸方向以及含气性进行分析,在此基础上对该地层水平井钻井体系进行了优化,结果显示:3号煤的水平最大主应力方向应为北东45°~60°,南西225°~240°;15号煤的水平最大主应力方向应为北东60°~75°,南西240°~255°。15号煤水平最大主应力方向与3号煤的相差15°左右。3号煤层属特低硫~低硫无烟煤,煤厚基本在5~6 m。15号煤层属中高硫~高硫无烟煤,煤层厚度在横向上总体较稳定,一般为4~5 m,煤层结构较为复杂。3号煤层和15号煤层含气量由区块南部向北部略有增加的趋势,呈现北东向展布的相对富集区夹小面积零星分布的相对低含气量区。优化钻井体系主要从钻井设计方案优化和钻井过程优化两个方面来实施。钻井设计方案优化主要包括:钻井设计理念的优化、井位优化和钻井轨迹设计优化。钻井过程优化主要包括:钻井设备优化、钻井液体系优化和井眼轨迹控制。井眼轨迹控制包括:无导眼精准着陆、弯曲段井眼轨迹控制、着陆时井眼轨迹控制和着陆后水平段井眼轨迹控制。ZH-L36井运用优化后的钻井体系,最终煤层钻遇率达到99%,压裂后产气量达4万m3/d。区块运用优化后的钻井体系,日产气量提高了100万m3/d。

     

    Abstract: Zhengzhuang block is located in the southwest of Qinshui Basin. The main gas producing horizons are No.3 coal of Shanxi Formation and No.15 coal of Taiyuan formation. The occurrence characteristics and gas bearing properties of coal seams in the area are quite different both vertically and horizontally. In this study, the main fracture extension direction and gas content of No.3 coal and No.15 coal were analyzed respectively. On this basis, the horizontal well drilling system in this formation was optimized. The results showed: The maximum horizontal principal stress direction of No.3 coal seam should be NE 45°−60°, SW 225°−240°. The maximum horizontal principal stress direction of No.15 coal seam should be NE 60°−75°, SW 240°−255°. The difference of maximum horizontal principal stress direction between No.15 coal and No.3 coal is 15°. No.3 coal seam belongs to extra low sulfur - low sulfur anthracite, the thickness of coal is 5−6 m. No.15 coal seam belongs to medium high sulfur high sulfur anthracite, The thickness of coal seam is generally stable horizontally, generally 4−5 m, The structure of coal seam is complex. The gas content of No.3 coal seam and No.15 coal seam increases slightly from the south to the north of the block, there are relatively rich areas with Northeast Distribution and relatively low gas content areas with small area scattered distribution. The optimization of drilling system was mainly implemented from two aspects: drilling design optimization and drilling process optimization. The optimization of drilling design mainly included: the optimization of drilling design concept, well location and drilling trajectory. The optimization of drilling process mainly included: drilling equipment optimization, drilling fluid system optimization and well trajectory control. Well trajectory control includes precise landing without pilot hole, well trajectory control in curved section, well trajectory control during landing and well trajectory control in horizontal section after landing. The optimized drilling system was used in well zh-l36, and the drilling rate of coal seam reached 99% and the gas production after fracturing reached 40000 m3/d. By using the optimized drilling system, the daily gas production increased by 100 m3/d.

     

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