A Comprehensive Review of Screen Plugging during Openhole Sand Control Completions Installation: Causes, Consequences, and Best Practices

IF 3.2 3区 工程技术 Q1 ENGINEERING, PETROLEUM SPE Journal Pub Date : 2024-04-01 DOI:10.2118/215070-pa
Maye Beldongar, B. Gadiyar, J. Jeanpert, Kevin Whaley, Philip Jackson, Gabriele Carpineta, Salvatore Luppina, Lisa Farina, Michele Giammancheri
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Abstract

In openhole completions, screens are one of the very common equipment used to control production of solids. Screens could get plugged during installation in case of improper wellbore fluid conditioning and displacement. Awareness of screen plugging is not widely spread, and many practicing engineers do not pay enough attention to its implications. In this paper, we discuss the causes, consequences, and ways of determining plugging and recommend best practices to reduce the risk of screen plugging. First, we review the various reasons for screens to get plugged during openhole completion installations and explain in detail undesirable events caused by screen plugging such as: Inability to properly displace wellbore fluids Inability to fully pack the screen annulus Damage to screens during displacement and gravel packing We also review downhole gauge data of several jobs to identify and discuss screen plugging signatures and their outcomes. Additionally, we discuss potential preventive measures. In openhole completions, it is very common to run screens in wellbores containing solids-laden fluids intentionally or unintentionally. Poor wellbore displacement or improper fluid conditioning can result in leaving some bigger size solids in the screen-running fluid (SRF), which could plug the screens. Also, the exposure of reactive shales to water-based fluids can destabilize the shales and lead to plugging. In some cases, the SRF quality control is not properly accounting for the actual flow inside the screen while running in hole, resulting in a false pass. We present several case histories of downhole gauge data analysis, showing evidence of screen plugging leading to excessive treating pressure, incomplete gravel pack, and, in a few cases, screen erosion during gravel pack operations. To prevent screen plugging, it is necessary to properly model all the displacement stages, pay attention to proper conditioning and quality control of the fluid, and ensure compatibility of the fluids with shales. A comprehensive review of screen plugging during sand control installation phase and its potential consequences supported with extensive downhole gauge data has not been published previously. This paper will be a valuable source of knowledge for completion engineers and help them better design and execute future operations.
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全面回顾裸眼防砂完井安装过程中的滤网堵塞问题:原因、后果和最佳做法
在裸眼完井中,滤网是用于控制固体产量的常用设备之一。在安装过程中,如果井筒流体调节和排量不当,滤网可能会堵塞。人们对滤网堵塞的认识并不广泛,许多执业工程师对其影响也不够重视。在本文中,我们将讨论堵塞的原因、后果以及确定堵塞的方法,并提出降低滤网堵塞风险的最佳实践建议。首先,我们回顾了裸眼完井安装过程中造成滤网堵塞的各种原因,并详细解释了滤网堵塞导致的不良事件,例如无法正确置换井筒流体 无法完全填满滤网环空 在置换和填砾过程中损坏滤网 我们还回顾了几项作业的井下测量数据,以确定并讨论滤网堵塞特征及其结果。此外,我们还讨论了潜在的预防措施。在裸眼完井中,有意或无意地在含有固体流体的井筒中运行滤网是非常常见的。井筒位移不佳或流体调节不当会导致筛分运行流体(SRF)中残留一些尺寸较大的固体,从而堵塞筛网。此外,活性页岩接触水基流体也会破坏页岩的稳定性,导致堵塞。在某些情况下,SRF 的质量控制不能正确反映筛网在孔内运行时的实际流量,从而导致错误通过。我们介绍了几个井下测井数据分析案例,显示了滤网堵塞导致处理压力过大、砾石封层不完整的证据,在少数情况下,滤网在砾石封层作业过程中受到侵蚀。为防止滤网堵塞,有必要对所有排量阶段进行适当建模,注意流体的适当调节和质量控制,并确保流体与页岩的兼容性。关于防砂安装阶段的滤网堵塞及其潜在后果的全面综述以及大量的井下测量数据尚未发表。本文将为完井工程师提供宝贵的知识来源,帮助他们更好地设计和执行未来的作业。
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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来源期刊
SPE Journal
SPE Journal 工程技术-工程:石油
CiteScore
7.20
自引率
11.10%
发文量
229
审稿时长
4.5 months
期刊介绍: Covers theories and emerging concepts spanning all aspects of engineering for oil and gas exploration and production, including reservoir characterization, multiphase flow, drilling dynamics, well architecture, gas well deliverability, numerical simulation, enhanced oil recovery, CO2 sequestration, and benchmarking and performance indicators.
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