页岩气储层缝内暂堵压裂技术研究进展及展望OA
Research progress and prospects of in-fracture temporary plugging fracturing technology in shale gas reservoirs
缝内暂堵压裂技术是实现页岩气储层高效开发的重要增产措施之一,而暂堵施工参数的合理选择对能否实现高效封堵至关重要.对缝内暂堵压裂技术的研究现状进行深入剖析,以明确其未来的发展需求,为页岩气的高效开发提供新的思路和方法.通过文献调研及分析,回顾了缝内暂堵压裂技术的发展历程,概述了缝内暂堵压裂技术机理及暂堵效果监测技术.综合分析对比了暂堵剂缝内运移-封堵实验和数值模拟及暂堵裂缝扩展模拟在优选暂堵施工参数上的方法特点及评价指标.结果表明,优选暂堵施工参数不仅可以实现高效封堵,还可以促进裂缝扩展,达到降本增效的目的.但现有优选技术难以实现高压、高温下的高精度模拟.通常室内的实验条件被简化为理想状态,往往忽略了实际地层条件下复杂多变的因素,并且实验装置普遍存在承压能力低、实验位移小等问题,均限制了实验的准确性;而数值模拟方法,模型多数为简单模型,缺乏自适应计算封堵位置及评价封堵能力的算法,并且忽略了裂缝壁面粗糙度及液体漏失等因素的影响,使得模拟结果难以准确反映实际封堵过程.为获取最优暂堵施工参数,建议改进实验装置,同时深化对微观机制的理解,加强多因素精确模型的开发,还原真实裂缝环境下的暂堵压裂效果.
In-fracture temporary plugging fracturing technology is one of the essential stimulation measures to realize the efficient development of shale gas reservoirs.The selection of temporary plugging construction parameters is very important to achieve efficient plugging.This paper conducted an in-depth analysis of the research status of in-fracture temporary plugging fracturing technology to clarify its future development requirements and provide new ideas and methods for the efficient development of shale gas.This paper reviewed the development history of in-fracture temporary plugging fracturing technology and summarized its technical mechanism and the monitoring technology of the temporary plugging effect through literature research and analysis.The paper compared the method characteristics and evaluation indexes of in-fracture migration-plugging experiments for temporary plugging agents,numerical simulation,and temporary plugging fracture propagation simulation in optimizing temporary plugging construction parameters.The results show that optimizing the temporary plugging construction parameters can achieve efficient plugging and promote fracture propagation,thereby reducing costs and increasing efficiency.However,current optimization technologies find it difficult to achieve high-precision simulations under high-pressure and high-temperature conditions.For laboratory experimental methods,test conditions are often oversimplified into idealized states,neglecting the complex and variable factors under actual formation conditions.Additionally,experimental setups commonly suffer from limitations such as low pressure-bearing capacity and restricted displacement ranges,which collectively constrain the accuracy of experiments.In terms of numerical simulation approaches,most models are predominantly based on simplified frameworks that lack adaptive algorithms for calculating plugging locations and evaluating sealing capacity.Furthermore,critical factors such as the roughness of fracture walls and fluid loss effects are often neglected,making the simulation results inadequate in accurately reflecting the actual plugging processes.To obtain the optimal temporary plugging construction parameters,it is recommended to improve the experimental device,deepen the understanding of microscopic mechanisms,and enhance the development of a precise multi-factor model to replicate the temporary plugging fracturing effect under the real fracture environment.
路千里;匡斌;郭建春;张航;龚新伟;何乐;曾冀;李成佳
西南石油大学 油气藏地质及开发工程国家重点实验室,四川 成都 610500西南石油大学 油气藏地质及开发工程国家重点实验室,四川 成都 610500西南石油大学 油气藏地质及开发工程国家重点实验室,四川 成都 610500西南石油大学 油气藏地质及开发工程国家重点实验室,四川 成都 610500西南石油大学 油气藏地质及开发工程国家重点实验室,四川 成都 610500中国石油集团川庆钻探工程有限公司井下作业公司,四川 成都 610051中国石油西南油气田公司 工程技术研究院,四川 成都 610017西南石油大学 石油与天然气工程学院,四川 成都 610500
能源科技
页岩气缝内暂堵压裂技术暂堵施工参数优选暂堵机理压裂监测
shale gasin-fracture temporary plugging technologyselection of temporary plugging construction parametertemporary plugging mechanismfracturing monitoring
《油气地质与采收率》 2026 (1)
70-84,15
四川省科技计划项目"页岩气暂堵压裂中暂堵材料运移封堵与裂缝扩展耦合作用机制研究"(2025NSFSC2062),国家科技重大专项"深层页岩气开发机理与开发关键技术"之课题五"深层页岩气高效压裂优化设计与精细排水采气工艺"(2025ZD1404105).
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