An Intelligent Completion and Artificial Lift Technology to Develop Large Carbonate Reservoirs: Novel Completion and Zonal Water Injection via Remote Control Methods to Develop Horizontal Wells

Jin Fu, Xi Wang, Guobin Yang, Shunyuan Zhang, Chen Chen, Haochen Han
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Abstract

There are several large carbonate reservoirs that have drawn great attention of researchers in recent years. After optimization of drilling technologies, how to deploy artificial lift technologies to develop them more efficiently is another concern. Conventional zonal water injection technologies require repetitive operation with wirelines and cables, causing extensive tests and low efficiency. However, an intelligent zonal water injection string consisting of several preset cable packers, water injection pressure gauges, formation pressure gauges and downhole flow meters has simply optimized water injection parameters and efficiently developed all reservoirs in some China's mature oilfields, especially when the string is integrated with remote monitoring and control methodologies. With the rapid development of horizontal drilling and extended reach well drilling technologies, borehole conditions are becoming more and more complicated, which has brought more challenges to water adsorption testing of horizontal intervals and deployment of zonal water injection instruments. Compared with vertical wells, the water adsorption test and string running are more challenging for horizontal wells, in which we are faced by many a problem during zonal water injection, such as competitive slack off and tight pull, excessive or inadequate water injection, complicated operation process. Besides, well deviation, dog leg and horizontal section length shall be all taken into consideration during zonal water injection for horizontal wells. Therefore, novel strings and tools should be deployed. Now tight pull, slack off and long operation periods are common problems during zonal water injection of horizontal intervals. After dedicated research, a set of wireless intelligent water injection strings for horizontal wells has been invented. Based on pressure pulse water distribution technique, the water injection string is eligible for 32-stage adjustment, so one strip may accomplish testing, adjusting, injection, measurement and downhole data collection, in addition to automatic error correction during water injection. The field trial shows that this novel string may be tripped in and out smoothly, packers are set securely and released easily, in order to adjust opening of each water injection nozzle in the ground, with an error of no more than ±10%. Therefore, the novel completion and water zonal water injection string is capable of injecting water precisely via remote control methods. The wireless intelligent water injection string for horizontal wells that combines testing, adjusting, injection, measuring and data collection in one trip provides us with many downhole data, such as pressure, flow rate, temperature and so on. Therefore, water injection volume for each zone is monitored and controlled down hole. This technology is applicable for both horizontal and vertical wells that require zonal water injection.
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开发大型碳酸盐岩储层的智能完井和人工举升技术:利用远程控制技术开发水平井的新型完井和分层注水技术
近年来,有几个大型碳酸盐岩储层引起了研究人员的极大关注。在优化钻井技术后,如何部署人工举升技术以提高开采效率是另一个值得关注的问题。常规的层间注水技术需要使用电缆和电缆进行重复作业,测试量大,效率低。然而,智能层间注水管柱由几个预先设置的电缆封隔器、注水压力表、地层压力表和井下流量计组成,简单地优化了注水参数,有效地开发了中国一些成熟油田的所有油藏,特别是当管柱与远程监测和控制方法相结合时。随着水平钻井和大位移井钻井技术的快速发展,井眼条件越来越复杂,这给水平井段的吸附测试和分层注水仪器的部署带来了更多的挑战。与直井相比,水平井的吸水测试和管柱下入具有更大的挑战性,水平井在分层注水过程中面临着许多问题,如竞争性松拉紧拉、注水过量或不足、操作过程复杂等。水平井分层注水时,井斜、狗腿、水平段长度都需要考虑。因此,需要部署新型管柱和工具。目前,水平井段分层注水过程中普遍存在拉紧、松脱、作业周期长等问题。经过潜心研究,发明了一套水平井无线智能注水管柱。注水管柱采用压力脉冲配水技术,可进行32级调整,一条完成测试、调整、注入、测量和井下数据采集,并实现注水过程中的自动纠错。现场试验表明,该新型管柱可以平稳地下入和下出,封隔器坐封牢固且易于释放,可以在地面上调节每个注水喷嘴的开度,误差不超过±10%。因此,新型完井和水层注水管柱能够通过远程控制方法精确注水。无线智能水平井注水管柱集测试、调整、注入、测量和数据采集于一体,一次下钻即可获取压力、流量、温度等多种井下数据。因此,对每个层的注水量进行了井下监测和控制。该技术适用于需要分层注水的水平井和直井。
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