智能流入示踪剂在北共青城油田水平井监测中的成功应用

T. Solovyev, Dzheykhun Soltanov, Artem Galimzyanov, Konstantin Naydenskiy, M. Nukhaev, I. Mukhametshin
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引用次数: 1

摘要

西西伯利亚地区大部分新油田都存在气顶过高、油环和活跃含水层等不利于油田开发的条件。北共青城油田还具有砂岩固结性差、稠油高的特点。为了缓解长水平井早期水或气的突破,该油田决定对不同类型的油藏完井(ICD、ACID、AICV)进行试井测试。在对最佳下完井类型的试验测试中,需要进行连续的井监测;钻后清理效率估算,井眼每隔室流入量定量估算,水或气突破定位。传统的测井方法,如生产测井,在技术上并不容易应用,而且在井的生命周期内,对于许多勘探来说,成本效益并不高。本文介绍了一种基于化学示踪剂的新技术在连续井监测中的应用效果。具有油水化学标记的聚合物基质已被集成到不同类型的下完井(ICD、AICD、随动筛管)中,并作为尾管管柱的一部分下入井中。智能化学示踪剂技术用于长周期监测井况,可获得以下信息:钻井后清理作业的有效性、每个隔室的流入量和水/气突破定位区域。为了验证化学示踪剂的解释结果,采用传统的生产测井方法沿井筒进行了流入量测量,并与示踪剂测量结果进行了对比。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Successful Application of the Intelligent Inflow Tracers for Monitoring of Horizontal Wells on North Komsomolskoe Field
Most of the new oil fields in Western Siberia have unfavorable conditions for field development such as excessive gas cap presents, oil rims and active water aquifer. The North-Komsomolskoe oilfield is also characterized by poor consolidated sandstone and high viscous oil. Different types of reservoir completion (ICD, ACID, AICV) have been decided to trial test for this field in order to mitigate early water or gas breakthrough along the long horizontal well. During this trial testing of the optimum type of lower completion, the continuous well monitoring is required; clean-up efficiency estimation after drilling, quantitative estimation of inflow per compartment along the wellbore and localization of water or gas breakthrough. Traditional well logging methods like production logging cannot always be easily applied technically and be cost-effective for many surveys during well life. This article presents the result of using a novel technology based on chemical tracer for continuous well monitoring. Polymer matrix with chemical markers for oil and water have been integrated into different types of lower completion (ICD, AICD, Stand Along Screen) and run into the hole as a part of liner string. Technology of intelligent chemical tracers is used to monitor well performance over a long period of well life, which allows to obtain the following information: effectiveness of clean up operation after drilling, inflow per compartment and water/gas breakthrough localization zone. To confirm interpretation results based on chemical tracer, the traditional method (production logging) was used to measure inflow along the wellbore and compare with result from tracer survey.
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