单趟下入采用双套管出口斜向器技术进行槽位回收和侧钻

Arpit Gupta, E. Thomas, G. Tomar, Ishita Rawat, Aditya Prakash, Anirudh Golwalkar, S. Vermani
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引用次数: 0

摘要

在高井密度的海上平台上,槽位回收技术是一种有效的方法,可以瞄准新的/未扫描的通道,以提高成熟油田的生产水平。这样就可以利用相当长的母井眼,这对于全球的运营商来说,在地面设施的保留和相关的钻机时间节省方面是一个优势。本文讨论了一个实际案例研究,其中在海上平台井中实现了双套管出口,从而节省了大量时间和成本。对于该井,地下目标距离母井相当远,因此计划在存在双套管的浅深度侧钻,即9-5/8″× 13-3/8″。现有的选择包括导铣和使用斜向器的双出口。与多套管出口不同,先导铣削是一种耗时的方法,需要多次起下钻,并且需要在地面处理大量金属屑。CBL-VDL验证了9 5/8″套管外存在水泥,进一步支持了双套管出口作业。因此,讨论了相关的风险,并制定了减轻风险的计划。单趟8-1/2″斜向磨铣系统用于切割适合下入钻井bha、尾管和完井设备的窗口。在磨铣和FIT测试期间,对9-5/8″× 13-3/8″环空进行监测,以检查是否存在任何压力通信。对于井控方案,将环空连接到节流管汇,以确保系统的封闭,从而在9-5/8″× 13-3/8″环空发生气体运移时,通过节流管汇提供循环。磨窗作业使用海水和间歇性高可见扫井作业。该窗口在“一次下钻”中成功磨铣,从而节省了大量钻机时间。没有观察到多余的阻力或阻力,当从井中取出时,铣刀上的厚度损失可以忽略不计。井的完整性完好无损,环空没有压力传导。该作业非常成功,在计划时间内完成了完井作业,并在恶劣天气条件出现之前及时释放了千斤顶钻机。两套或三套管柱的多套管出口技术为油井干预技术带来了多层次的优势,特别是在由于鱼的存在或其他限制而导致井的深层部分无法使用的情况下。这种井段可以通过在较浅的深度进行侧钻来避免,同时也提供了接近距离原始母井相当远的目标的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Slot Recovery & Sidetracking Using Dual Casing-Exit Whipstock Technology in a Single Trip
In offshore platforms, with high well density, slot recovery technique is an efficient way to target new / un-swept avenues to boost the production levels in a mature field. This leads to utilization of an appreciable length of parent bore which is an advantage to the operators globally in terms of surface facility retention and associated rig time saved. This paper discusses an actual case-study wherein dual casing exit was achieved in an offshore platform well resulting in significant time and cost savings. For the subject well the subsurface targets were quite far from the mother-bore, resulting in a plan to side-track the well at a shallow depth where double casing existed, i.e. 9-5/8″ × 13-3/8″. The options available were pilot milling and dual exit using whipstock. Unlike multi-casing exits, pilot milling is a time consuming method which requires multiple trips and involves large volume of metal swarf handling at surface. The CBL-VDL verified the presence of cement outside 9 5/8″ casing that further supported the case of dual casing exit operation. Consequently, associated risks were discussed and plans to mitigate the same were put in place. Single-trip 8-1/2″ whipstock-milling system was used to cut a window suitable for running drilling BHAs, liner, and completion equipment. The 9-5/8″ × 13-3/8″ annulus was monitored during milling and FIT test to check for any pressure communications. For well control scenario, arrangements were made for connecting the annulus to the choke manifold to ensure a closed system and thereby have provision of circulating through choke in case of gas migration in the 9-5/8″ × 13-3/8″ annulus. The window milling operation was done using sea water & intermittent Hi-vis sweeps. The window was milled successfully in a "single trip", thereby saving considerable rig time. No excess drag or held-up was observed and gauge loss on mills when pulled out of the hole was negligible. Well integrity was intact with no pressure communication in the annulus. The job was a successful one that led to finishing the well within the planned time and thereby, led to timely release of the jack up rig before the onset of adverse weather conditions. Multi-casing exit technology in two or three casing strings opens the multi-level advantages to well intervention techniques especially in situations where the wells are old with limited access due to presence of fish or other restrictions that makes the deeper section of the well non-usable. Such sections can be avoided by sidetracking at a shallow depth and also provides an opportunity to access targets that are quite far from the original mother-bore.
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