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新一代体积改造技术新内涵、关键问题及未来发展方向OA

Connotation,key issues,and future development of the new-generation volume stimulation technology

中文摘要英文摘要

系统梳理水平井分段压裂技术发展历程及划代特征,确立以极限限流为主导的新一代体积改造技术的内涵与实质.研究指出:经典压裂理论是指导压裂优化设计的根本;以裂缝单元为基础的压裂优化设计是实现"完美压裂"的基础;"加砂强度"是统计意义参数,不能用于评估压裂效果;扩大波及体积是实现最佳改造效果的关键.限流射孔压裂时的截流阻力大于簇间平面地应力差能实现各簇全开启;极限限流则要求在簇全开启后附加在井口施工压力上的截流阻力大于10 MPa,可实现各簇裂缝均匀进液.水力压裂试验场取心"裂缝群"特征表明,建立单缝优势通道是确保裂缝有效延伸的关键.基于滑溜水输砂沉降流变特征和北美水力压裂试验场成果,提出了现代压裂的3个新观点:滑溜水压裂依靠速度携砂,后续注入的支撑剂运移距离最远,"逆序输砂"是未来压裂技术方向;高黏滑溜水难以实现有效携砂;携砂沉降模式决定了压裂施工过程中"动态缝宽等于支撑缝宽".给出"全域支撑"的技术内涵与实现路径,提出"自主智能压裂(AIF)愿景"的未来发展方向.

This paper systematically reviews the development history and generational characteristics of multi-stage fracturing technology in horizontal wells,and defines the connotation and essence of the new-generation volume stimulation technology which is represented by extreme limited entry(XLE).The research indicates that classical fracturing theory remains the comerstone for optimizing stimulation designs.Optimization based on fracture units is fundamental for achieving"perfect fracturing",while"proppant loading intensity"serves merely as a statistical parameter and therefore cannot be used to evaluate fracturing effectiveness.Consequently,expanding the stimulated volume is identified as the key to achieving optimal stimulation results.Regarding limited entry perforation strategies,the study clarifies that all clusters initiation can be achieved when total perforation friction exceeds the horizontal in-situ stress difference among clusters.Furthermore,XLE requires a total perforation friction greater than 10 MPa,superimposed on the treating pressure at wellhead after all clusters initiation,to ensure even fluid distribution across all fractures.Based on the characteristics of"fracture swarms"observed in cores from hydraulic fracturing test sites(HFTS),it is revealed that creating a single principal fracture is critical for effective fracture propagation.Drawing on the rheological characteristics of proppant settling in slickwater and learnings from North American HFTSs,three novel viewpoints on modern fracturing are proposed:Slickwater fracturing relies on velocity for proppant transport,and subsequently injected proppant travels the furthest,suggesting that"CounterProp"is the future direction of fracturing technology;High-viscosity slickwater struggles to achieve effective proppant transport;The proppant settling mode determines that the dynamic fracture width during the treatment is effectively equal to the propped fracture width.Finally,the technical connotation and implementation pathway for"whole-domain propped"treatment are presented,and a future development vision for Autonomous Intelligent Fracturing(AIF)is proposed.

胥云;李帅;蒋豪;翁定为;马泽元;李德旗;才博;陈铭;易新斌;付海峰;杨战伟

中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油西南油气田公司,成都 610051中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油浙江油田公司,杭州 310023中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油大学(华东),山东青岛 266580中国石油油气和新能源公司,北京 100007中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083中国石油油气藏改造重点实验室,河北廊坊 065007||中国石油勘探开发研究院,北京 100083

能源科技

体积改造极限限流裂缝控藏密切割全域支撑完美压裂气悬浮逆序输砂支撑缝宽

volume stimulationextreme limited entryfracture-controlled reservoirclose cuttingfull-domain proppingperfect fracturinggas suspensionCounterProppropped fracture width

《石油勘探与开发》 2026 (2)

440-454,15

国家科技重大专项"煤岩储层致裂机理与减水压裂技术及装备"(2025ZD1404206)中国石油天然气股份有限公司科技专项"非常规储层改造关键技术研究"(2023ZZ28)

10.11698/PED.20250421

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