Field Test of Single Cluster Fracture Extension Strength Monitoring by Optical Fiber Outside Casing

Drilling & Production Technology ›› 2022, Vol. 45 ›› Issue (2): 84-88.

• PRODUCTION TECHNOLOGY • Previous Articles Next Articles

Field Test of Single Cluster Fracture Extension Strength Monitoring by Optical Fiber Outside Casing

WU Baocheng¹，WANG Jia¹，ZHANG Jingchen²，WANG Mingxing¹，WANG Fei²，YAN Tuo²

1. Engineering Technology Research Institute of Xinjiang Oilfield Company，Karamay，Xinjiang 834000，China；2. China University of Petroleum (Beijing)，Beijing 102249，China

Online:2022-03-25 Published:2022-04-28

管外光纤监测压裂单簇裂缝延伸强度现场试验

吴宝成¹，王佳¹，张景臣²，王明星¹，王飞²，闫拓²

1 中国石油新疆油田分公司工程技术研究院 2中国石油大学（北京）

作者简介:吴宝成（1980-），高级工程师，2002 年毕业于中国石油大学（华东）石油工程专业'现在新疆油田工程技术研究院从事油气田开发相关工作。
基金资助:
中国石油大学（北京）（克拉玛依校区）科研基金项目“大规模体积压裂开发含油污泥综合治理与利用研究”（编号：2018Q030）；中国石油战略合作科技专项“砾岩油藏压裂有效性控制机理及压裂参数优化研究”（编号：ZLZX2020-02-07-03）；中国石油战略合作科技专项“吉木萨尔上下甜点高效动用机理与立体开发技术研究”（编号：ZLZX2020-02-07-05）。

Abstract

Abstract: The carboniferous volcanic reservoir in Xinjiang Oilfield has strong heterogeneity, and the development effects of multi-cluster fracturing and temporary plugging and diversion fracturing are quite different. The main reason is that the conventional fracturing monitoring technology is difficult to accurately monitor the fluid inflow and expansion of each cluster fractures, unable to take targeted measures. Therefore, field experiments were carried out for the optical fiber monitoring technology outside the casing. The experimental results show that the outside-casing optical fiber technology can measure the temperature distribution of the wellbore in real time, while the acoustic vibration can provide real-time information about the fluid intake of each cluster during the fracturing construction. After reasonable interpretation of the measured temperature data and vibration data, the uneven liquid inflow of each cluster can be obtained, and the temporary plugging or repeated fracturing reforming process can be designed specifically to promote the uniform liquid inflow and expansion of each cluster's fractures, so as to significantly increase the volume of reservoir reconstruction. According to the real-time outside-casing optical fiber field results, the multi cluster + limit flow + temporary plugging fracturing technology in the optimized section has been popularized and applied in 32 wells of the Carboniferous System in the northwest edge. The average production of a single well after fracturing has increased by 13%, achieving good application results.

Key words: carboniferous volcanic rocks；outside-casing optical fiber technology；fracturing；wellbore temperature , ；formation fluid intake

摘要： 新疆油田石炭系火山岩储层非均质性较强，多簇压裂和暂堵转向压裂开发效果差异较大，主要原因在于常规压裂监测技术难以准确监测各簇裂缝进液和扩展情况从而采取针对性措施，为此进行了管外光纤监测技术现场实验。实验结果表明，管外光纤技术能实时测量井筒的温度分布，同时通过声波振动能实时了解压裂施工过程中各簇的进液情况。通过对测得温度数据和震动数据进行合理的解释后，可以得出各簇不均匀进液情况，针对性的设计暂堵或重复压裂改造工艺，促进各簇裂缝均匀进液扩展，从而较大幅度提高储层改造体积。根据管外光纤的实时现场结果，优选段内多簇+极限限流+暂堵压裂技术，在西北缘石炭系推广应用32井次，压裂后单井平均产量提高13%，取得了良好的应用效果。

关键词: 石炭系火山岩, 管外光纤监测技术, 压裂, 井筒温度, 地层进液量

WU Baocheng, WANG Jia, ZHANG Jingchen, WANG Mingxing, WANG Fei, YAN Tuo. Field Test of Single Cluster Fracture Extension Strength Monitoring by Optical Fiber Outside Casing [J]. Drilling & Production Technology, 2022, 45(2): 84-88.

吴宝成, 王佳, 张景臣, 王明星, 王飞, 闫拓. 管外光纤监测压裂单簇裂缝延伸强度现场试验[J]. 钻采工艺, 2022, 45(2): 84-88.

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Field Test of Single Cluster Fracture Extension Strength Monitoring by Optical Fiber Outside Casing

管外光纤监测压裂单簇裂缝延伸强度现场试验

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