摘要
为有效监测水力压裂效果、提高储层压裂效果评价精度,基于阵列声波测井资料的井下压裂效果评价方法,采用反射斯通利波提取和成像技术定量表征近井筒压裂缝,建立适用于测井观测系统的叠前深度偏移成像算法,以实现远井压裂缝的高精度成像,形成了基于阵列声波测井的井下多尺度压裂效果评价方法,并在中国西部某油田X1水平井成功应用。研究表明,基于阵列声波测井资料评价的压裂缝发育程度与压裂液注入量呈正相关关系,并且压裂缝最为发育层段与地震蚂蚁体属性图中天然裂缝发育位置一致。基于阵列声波测井的井下压裂效果评价方法的提出,对表征井周数十米范围内不同尺度压裂缝的发育情况具有重要意义,对更好地发挥水力压裂技术对能源勘探开发行业的支撑作用具有一定指导意义。
In order to effectively monitor the hydraulic fracturing effect and improve the evaluation accuracy of reservoir fracturing,an evaluation method of the downhole fracturing effect based on array acoustic logging data was adopted.The extraction and imaging technologies of reflected Stoneley wave were used to quantitatively characterize near-wellbore fractures,and a pre-stack depth migration imaging algorithm suitable for logging observation systems was proposed,achieving high-precision imaging of fractures in far from wells.In addition,an evaluation method of multi-scale fracturing effect based on array acoustic logging was developed and applied in horizontal well X1 in an oilfield in western China.The results show that the development degree of fractures evaluated based on array acoustic logging data is positively correlated with the injection amount of fracturing fluid,and the most developed zone of fractures is consistent with the development location of natural fractures in the seismic ant attribute map.The evaluation method of the downhole fracturing effect based on array acoustic logging is of great significance to characterize the development of fractures of different scales within tens of meters around the well,and it has certain guiding significance to better play the supporting role of hydraulic fracturing technologies for energy exploration and development industry.
作者
李宁
刘鹏
范华军
胡江涛
武宏亮
LI Ning;LIU Peng;FAN Huajun;HU Jiangtao;WU Hongliang(PetroChina Research Institute of Petroleum Exploration&Development,Beijing,100083,China;College of Geophysics,China University of Petroleum(Beijing),Beijing,102249,China;College of Geophysics,Chengdu University of Technology,Chengdu,Sichuan,610059,China)
出处
《石油钻探技术》
CAS
CSCD
北大核心
2024年第1期1-7,共7页
Petroleum Drilling Techniques
基金
中国石油天然气集团有限公司科学研究与技术开发项目“高精度深探测成像测井系列处理技术研究”(编号:2021DJ4002)
“斯通利波测井探测器及刻度关键技术研究”(编号:2022DJ3908)联合资助。
关键词
多尺度压裂
水力压裂
压裂效果
评价方法
声波测井
斯通利波
multi-scale fracturing
hydraulic fracturing
fracturing effect
evaluation method
acoustic logging
Stoneley wave