A Successful Application of Continuous Pack-Off Technology to Water Shutoff Recompletion for High-WCT Gravel-Packed Horizontal Well

An Jiang, Yunpeng Li, Xinge Liu, Fengli Zhang, Tianhui Wang, Yuezhong Liu, Lianhe Han, Bailin Pei, Yingying Chen
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引用次数: 1

Abstract

Controlling the excessive water production from the high water cut gravel packing horizontal well is a challenge. The approach which uses regular packers or packers with ICD screens to control the unwanted water does not function well. This is mainly because of the length limitation of packers which will make the axial flow resistance insufficient. In this paper, a successful case that unwanted water is shutoff by using continuous pack-off particles with ICD screens (CPI) in the whole horizontal section in an offshore oilfield of Bohai bay is presented. The reservoir of this case is the bottom-water high viscosity reservoir. The process is to run 2 3/8" ICD screen string into the 4" screen string originally in place, then to pump the pack-off particles into the annulus between the two screens, and finally form the 360m tightly compacted continuous pack-off particle ring. The methodology behind the process is that the 2-3/8" ICD screens limit the flow rate into the pipes as well as the continuous pack-off particle ring together with the gravel ring outside the original 4" screens to prevent the water channeling into the oil zone along the horizontal section. This is the first time this process is applied in a high water cut gravel packed horizontal well. After the treatment, the water rate decreased from 6856BPD to 836.6BPD, the oil rate increased from 44BPD to 276.8BPD. In addition, the duration of this performance continued a half year until March 21, 2020. The key of this technology is to control the unwanted water by using the continuous pack-off particles instead of the parkers, which will bring 5 advantages, a) higher efficiency in utilizing the production interval; b) no need to find the water source and then fix it; c) the better ability to limit the axial flow; d) effective to multi-WBT (water break though) points and potential WBT points; e) more flexible for further workover. The technology of this successful water preventing case can be reference to other similar high water cut gravel packed wells. Also, it has been proved that the well completion approach of using CPI can have good water shutoff and oil incremental result. Considering the experiences of historical applications, CPI which features good sand control, water shutoff and anti-clogging is a big progress compared to the current completion technologies.
连续封隔技术在高wct砾石充填水平井关水再完井中的成功应用
控制高含水砾石充填水平井的过量产水是一个挑战。使用常规封隔器或带ICD筛管的封隔器来控制不需要的水的方法效果不佳。这主要是由于封隔器长度的限制,使得轴向流阻力不足。本文介绍了渤海湾某海上油田采用ICD筛管(CPI)连续充填颗粒封堵整个水平段多余水的成功案例。本例储层为底水高黏度储层。该工艺是将2 3/8”ICD筛管柱下入原有的4”筛管柱中,然后将封隔颗粒泵入两个筛管柱之间的环空,最终形成360m密实的连续封隔颗粒环。该工艺背后的方法是,2-3/8”ICD筛管限制流入管道的流量,以及连续封隔颗粒环和原始4”筛管外的砾石环,以防止水沿水平段进入油区。这是该工艺首次应用于高含水砾石充填水平井。处理后,产水量从6856BPD下降到836.6BPD,产油量从44BPD增加到276.8BPD。此外,本次演出持续了半年,截止到2020年3月21日。该技术的关键是通过使用连续充填颗粒来控制不需要的水,而不是停留剂,这将带来5个优势:a)提高生产间隔的利用效率;B)不需要找水源再修复;C)较好的轴流限制能力;d)对多个破水点和潜在破水点有效;E)更灵活地进行后续修井。这一成功的防水技术对其他类似的高含水砾石充填井具有借鉴意义。实践证明,采用CPI完井方式具有良好的堵水增油效果。考虑到以往的应用经验,CPI具有良好的防砂、堵水和防堵塞的特点,与目前的完井技术相比,这是一个很大的进步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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