Egina Deep Water Development: Isolation Barrier Valve Case Study

G. Forrest, Christophe Morand, Kenneth Johnson, V. Okengwu, V. Chaloupka
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Abstract

A major operator manages multiple deep water projects in the Gulf of Guinea. This paper describes the latest 44-well project in Nigeria. The operator required an ISO 28781 qualified bi-directional subsurface isolation barrier valve (IBV) (Fig. 1) to be installed in each well. This work presents results of IBV deployment in the field. The wells were drilled and completed from sixth generation drillships. To comply with the operator's dual barrier policy, a bi-directional IBV was installed in each well to help ensure reservoir isolation for temporary well suspension or before running upper completion and tree installation. Careful attention to well fluid cleanliness, sound quality assurance/quality control (QA/QC), and operational procedures were considered paramount to successful remote opening of the IBVs and were identified as best practices by both parties. The IBV is run in the open position as an integral part of the lower completion. A collet shifting tool closes the ball isolating the formation, enabling inflow and positive pressure testing to be performed. The reservoirs are isolated by the closed ball in the IBV, allowing safe installation of the upper completion from a floating rig or well suspension without a subsea tree. The use of an ISO 28781 Type CC V1 qualified IBV provides both zonal isolation and fluid-loss control. Once a well is completed and the subsea tree installed, the IBV is remotely functioned to the open position by applying multiple tubing pressure cycles. The first batch of wells were drilled and completed with lower completions and suspended while waiting for subsea tree deliveries. Later, wells were drilled and completed with both lower and upper completions, and trees were installed later from an offshore inspection maintenance and repair (OIMR) vessel. IBVs were successfully closed and inflow and pressure tested during the lower completion phase. IBVs are run in sieved non-aqueous based mud (NABM). Filtered high viscosity pills are spotted across the IBV before closing. Once closed, the casing above the IBV is displaced to filtered completion brine at a rate ensuring any debris is lifted to the surface. The wells remain suspended with IBVs closed until the operator performs flowback and injectivity testing from a drillship. Additional injectivity testing was also performed from an OIMR vessel. Well suspension duration with IBVs closed varied between two months and 2.5 years. All valves cycled opened without issues. Four coiled tubing (CT) interventions were performed in the field, passing through the open ball without issue, confirming the IBVs were in the fully open position. This paper describes full QA/QC and operational procedures, which led to successful deployment and excellent functionality of the IBVs.
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Egina深水开发:隔离屏障阀案例研究
一家大型运营商在几内亚湾管理着多个深水项目。本文介绍了尼日利亚最新的44口井项目。作业者要求在每口井中安装一个符合ISO 28781标准的双向地下隔离阀(IBV)(图1)。这项工作介绍了IBV在现场部署的结果。这些井是由第六代钻井船钻井和完井的。为了遵守运营商的双重隔离政策,在每口井中都安装了一个双向IBV,以帮助确保临时停井或下完井和采油树安装之前的油藏隔离。仔细关注井液清洁度、健全的质量保证/质量控制(QA/QC)和操作程序对于成功远程开启ibv至关重要,并被双方确定为最佳实践。IBV作为下部完井的一个组成部分,在打开位置下入。夹头移动工具关闭球体,隔离地层,从而进行流入和正压测试。储层由IBV中的封闭球隔离,无需海底采油树,即可通过浮式钻机或井悬架安全安装上部完井装置。使用符合ISO 28781 CC V1标准的IBV,可实现层间隔离和失液控制。一旦一口井完井,海底采油树安装完毕,IBV就会通过多个油管压力循环,远程启动到开启位置。第一批井以较低完井率钻完井,在等待海底采油树交付期间暂停作业。随后,下部和上部完井都进行了钻井和完井,随后通过海上检查维护和维修(OIMR)船安装了采油树。在下部完井阶段,ibv成功关闭,并进行了流入和压力测试。ibv在经过筛分的非水基泥浆(NABM)中下入。过滤后的高粘度药丸在IBV关闭前被发现。一旦关闭,IBV上方的套管将被置换到过滤过的完井盐水中,以确保任何碎屑被提至地面。在作业公司从钻井船上进行返排和注入测试之前,ibv关闭,井处于暂停状态。此外,还在OIMR容器上进行了额外的注入性测试。关闭ibv的停井时间从2个月到2.5年不等。所有阀门循环开启没有问题。在现场进行了四次连续油管(CT)干预,没有出现问题,通过开放的球,确认ibv处于完全打开的位置。本文描述了完整的QA/QC和操作过程,这些过程导致了ibv的成功部署和出色的功能。
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