Shushufindi Aguarico油田防止结垢和产量损失的新型化学处理和完井策略

M. Paredes, Luciano Bravo Marques da Silva, L. Egas, Edison Endara, Pedro Escalona, O. Maulidani, Alexander Pineda, D. Estevez, J. Guaman, J. Carrión, C. Freire, F. Villamar
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引用次数: 0

摘要

在本案例研究中,EP Petroecuador和Consorcio Shushufindi评估了一种化学处理和完井策略,以减少井底规模沉积物对石油产量、电潜泵(ESP)运行寿命和高规模油藏完井作业成本的广泛影响。本文还将讨论这些策略对石油生产优化的积极影响,以及这项工作的优势、经验教训和制约因素。通常,化学缓蚀剂和阻垢剂是通过毛细管管线下入的;这种方法一直有效到泵深,但不能防止射孔处、下部完井段和近井段的沉积。观察到产量迅速下降或完全失去生产,需要昂贵的油井干预。实验室分析和干预证据表明,低t砂流体在井底呈现大尺度趋势;因此,确定并证明了一种识别候选井眼并在井眼中进行化学处理以防止水垢沉积的方法。所选择的工艺是胶囊化阻垢剂(微帽)。根据这一过程,从12口符合标准的井中选择了2口井来应用该方法来部署该技术。提出了以下意见:碳酸钙(CaCO3)是最常见的结垢剂,ESP参数和生产监控对于早期发现与井底结垢有关的问题至关重要。微帽的作用和在ESP底部传感器下方安装管尾可以增加阻垢剂的连续用量,并将ESP设备的运行寿命延长了一倍。可以在短时间内直接节省运营成本(约24万美元),并且可以继续获得更高的收益。根据对两种候选井的修井后(WO)生产测试和ESP参数的性能,该策略的应用可以恢复产能指标并长期维持。这使得在处理前的同一时期内,产量损失减少了310桶/天,相当于实际产量的60%。微帽可以通过无钻机环空进行充填,这是解决井底结垢问题的低成本解决方案。本文介绍了一种从砂面到井口的非常规低成本化学处理策略,以降低井底产生高结垢趋势流体的作业成本。这种新颖的工艺和微帽应用可以在偏远和困难地区的井中进行常规服务。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Chemical Treatment and Well Completion Strategy to Prevent Scale and Production Losses in Shushufindi Aguarico Field
In this case study, EP Petroecuador and Consorcio Shushufindi evaluate a chemical treatment and completion strategies to reduce the extensive impact of bottomhole scale deposits on oil production, electrical submersible pumps (ESP) run life, and operating costs of wells completed in the high-scaling tendencies reservoir. The positive impact on oil production optimization resulting from these strategies will also be discussed and the advantages, lessons learned, and constraints of this work. Conventionally, corrosion and scale chemical inhibitors are deployed through capillary lines; this method is effective up to the pump depth but does not prevent deposits at the perforations or at the lower completion and near wellbore. Rapid production decline or complete loss of production is observed, requiring costly well interventions. Laboratory analysis and evidences from the interventions show that lower T-sand fluids present a high-scale tendency at the bottomhole; therefore, a process to identify candidates and deploy chemical treatment in the rathole to prevent scale deposits was defined and proved. The technology selected was encapsulated scale inhibitors (microcaps). Based on the process, two wells were selected from a portfolio of 12 wells that match the criteria to apply the method to deploy the technology. The following observations were drawn: -Calcium carbonate (CaCO3) is the most common scale-ESP parameters and production surveillance are essential for early detection of problems associated with scale deposits at bottomhole-The action of microcaps and the installation of a pipe tail below the ESP base sensor allowed to deepen the continuous dosage of scale inhibitor and has already doubled the run life of the ESP equipment, with direct savings on operations costs (approximately USD 240,000) in the short time and continue and can continue to yield more.-According to post workover (WO) production tests of the two candidates and the performance of ESP parameters, the application of this strategy made possible to restore the productivity indexes and sustain them over time. This leads to reduction in production losses of 310 BOPD or 60% of the actual production in the similar period before the treatment.-The microcaps can be applied and refilled through rig-less annulus-It is a low-cost solution for scale problems at bottomhole. This document presents an analysis to reduce operating costs in wells that produce fluids with a high-scaling tendency at bottom hole, through an unconventional and low-cost strategy of chemical treatment from the sand face to the wellhead. This novel process and microcaps application can be used in wells in remote and difficult areas to service on a regular basis.
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