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深层页岩气藏水平井防压窜工艺效果与适配性研究

王文东晏悟斌刘延喻文锋宋毅曾波苏玉亮

天然气勘探与开发2026，Vol.49Issue(1)：71-85,15.

天然气勘探与开发2026，Vol.49Issue(1)：71-85,15.DOI:10.12055/gaskk.issn.1673-3177.2026.01.007

深层页岩气藏水平井防压窜工艺效果与适配性研究

Anti-frac-hit technologies for horizontal wells in deep shale gas reservoirs:Effectiveness and applicability

王文东 ¹晏悟斌 ¹刘延 ¹喻文锋 ²宋毅 ²曾波 ²苏玉亮¹

作者信息

1. 非常规油气开发教育部重点实验室[中国石油大学(华东)] 山东青岛 266580
2. 中国石油西南油气田公司页岩气研究院四川成都 610051||页岩气地质评价与高效开发四川省重点实验室四川成都 610051
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摘要

Abstract

There exists the challenges of frequent frac-hits and varying frac-hit patterns caused by tight reservoir rocks and abnormally developed natural fracture zones,and the lack of targeted anti-frac-hit technologies during hydraulic fracturing of deep shale gas wells in the southern Sichuan Basin.To address these challenges and thus improve reservoir stimulation,a frac-hit fracture propagation model for horizontal wells in deep shale gas reservoirs was constructed using a method integrating numerical simulation and theoretical analysis.Based on three frac-hit patterns,the effectiveness of four anti-frac-hit technologies were investigated and compared under varying frac-hit degrees.The following results are obtained.(i)Three evaluation indices relating to the constructed model,namely stress front radius,fracture asymmetric growth coefficient(AGC),and pressure change integral(PCI)index,are conducive to the multi-dimensional quantitative characterization of frac-hit degree.Specifically,the stress front radius reflects the scope of in-situ stress disturbance,the fracture AGC quantifies the asymmetry in fracture propagation,and the PCI index characterizes the abnormality in the wellhead pressure field.The three indices jointly form a comprehensive frac-hit evaluation system.(ii)The W-shaped well placement technology shows strong pertinence,offering optimal prevention and control against two frac-hit patterns:natural fracture-mediated interference(Type Ⅱ)and direct hydraulic fracture-mediated interference(Type Ⅲ),by effectively blocking the formation and extension of frac-hit channels.(iii)Alternate well zipper fracturing and stepwise drainage rate increase technologies are widely applicable,and can significantly control frac-hits for both pore-elastic interference mediated by rock matrix(Type Ⅰ)and natural fracture-mediated interference(Type Ⅱ)by regulating the stress field and fracture propagation direction.(iv)The technology of diversion while pump shutdown combined with high-concentration proppant injection in pad stage is suitable for the Type Ⅰ and small-scale TypeⅡ,inhibiting interference impacts by optimizing fracture morphology.In conclusion,this study clarifies the application scenarios and regulation mechanisms of different anti-frac-hit technologies,and proposes the applicable schemes of the technologies,providing technical support for frac-hit prevention and control during pre-production fracturing operations of deep shale gas horizontal wells in the southern Sichuan Basin.

关键词

压裂窜扰/数值模拟/页岩气/方案设计/参数优化/压窜/防压窜/四川盆地南部地区

Key words

Fracturing interference/Numerical simulation/Shale gas/Scheme design/Parameter optimization/Frac-hit/Anti-frac-hit/Southern Sichuan Basin

分类

能源科技

引用本文复制引用

王文东,晏悟斌,刘延,喻文锋,宋毅,曾波,苏玉亮..深层页岩气藏水平井防压窜工艺效果与适配性研究[J].天然气勘探与开发,2026,49(1):71-85,15.

基金项目

国家自然科学基金项目"页岩混合润湿多尺度孔隙渗吸排驱机理与多相渗流模拟方法"(编号:52274056). （编号:52274056）

天然气勘探与开发

ISSN：1673-3177

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