Sand Screen with Check-Valve Inflow Control Devices

IF 1.3 4区工程技术 Q3 ENGINEERING, PETROLEUM

SPE Drilling & Completion Pub Date : 2020-12-01 DOI:10.2118/201206-pa

A. Dikshit, Amrendra Kumar, E. Anikanov, P. Petukhov, A. Rudic, G. Woiceshyn, B. Gadiyar, M. Parlar, Camilo Jurgensen

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引用次数: 1

Abstract

Sand control screens are installed with an internal string (wash pipe) as required which, among other functions, provides a circulation path. In long horizontal wells, running a wash pipe consumes considerable rig time and may limit the ability to reach target depth. In cases in which fluid losses are experienced after screen installation, isolating the open hole with a fluid-loss control valve can be prolonged. This paper describes a wash-pipe-free solution for screen installation using a check-valve inflow control device (CV-ICD). ICD screens are commonly used to delay/restrict the influx of unwanted fluids such as gas or water. The wash-pipe-free solution integrates a check valve with the ICD to prevent outflow through the screen during circulation and allows inflow through the screen when placed on production. This solution uses a check ball that seals against the ICD during circulation but falls back on a porous retainer plate during production. The check ball and retainer plate can be dissolved by spotting a reactive fluid inside the screen or made to erode over time with production. Laboratory testing yielded the following results: the ICD with the check ball was shown to seal up to 5,000 psi; the check ball and retainer plate can be dissolved by a reactive fluid, which can be tailored to bottomhole temperature and the required time of dissolution; and the pressure activation test demonstrated that the maximum differential pressure to seat the ball was less than 5 psi. This CV-ICD solution has been applied worldwide in more than 35 wells, most of which were targeted to avoid running a wash pipe. However, in two wells the technology was successfully used to set openhole packers with a 5,000-psi setting pressure. In this paper, we present the wash-pipe-free ICD screen installation with a dissolvable check valve and the capability of setting a hydraulic packer without a wash pipe or intervention in the open hole. The novel contribution presented herein is the ability to integrate a ball and cage to existing nozzle-based ICDs by using dissolvable material to achieve the preceding results in this application.

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带有单向阀流入控制装置的防砂筛管

防砂筛管根据需要安装了内部管柱(洗管柱)，除其他功能外，还提供了循环路径。在长水平井中，下入洗管会消耗大量钻机时间，并可能限制到达目标深度的能力。如果筛管安装后出现流体漏失，则可以延长使用流体漏失控制阀隔离裸眼的时间。本文介绍了一种使用单向阀流入控制装置(CV-ICD)安装筛管的无冲洗管解决方案。ICD筛管通常用于延迟/限制不需要的流体(如气体或水)的流入。无冲洗管解决方案集成了一个带有ICD的止回阀，以防止在循环过程中通过筛管流出，并允许在生产时通过筛管流入。该解决方案使用止回球，在循环过程中密封ICD，但在生产过程中回落到多孔保持板上。止回球和固定板可以通过在筛管内发现反应性流体而溶解，也可以随着生产时间的推移而被腐蚀。实验室测试结果如下:带有止回球的ICD密封压力可达5000 psi;止回球和固定器板可以通过反应性流体溶解，反应性流体可以根据井底温度和所需溶解时间定制;压力激活测试表明，密封球的最大压差小于5 psi。该CV-ICD解决方案已在全球超过35口井中应用，其中大多数井的目标是避免下入洗管。然而，在两口井中，该技术成功地应用于坐封压力为5000 psi的裸眼封隔器。在本文中，我们介绍了一种无需冲洗管的ICD筛管装置，该装置带有可溶解的止回阀，并且能够在裸眼井中无需清洗管或干预即可下封液压封隔器。本文提出的新贡献是能够通过使用可溶解材料将球和保持架集成到现有的基于喷嘴的icd中，从而在该应用中实现上述效果。

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 Drilling & Completion 工程技术-工程：石油

CiteScore

4.20

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： Covers horizontal and directional drilling, drilling fluids, bit technology, sand control, perforating, cementing, well control, completions and drilling operations.