The First Multilateral Well in Eastern Siberia on the Separated Oil Reservoirs

Ruslan Gataullin, S. Ter-Saakov, E. V. Nikulin, Dmitriy Pavlovich Stifeev, A. V. Filatov
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Abstract

This article describes engineering and technology solutions developed to successfully construct unconventional and unique horizontal well at the field of Eastern Siberia targeted to two isolated formations with an option to shut-off top Botuobinsky horizon after gas breakthrough and produce oil from underlying Ulakhansky bed further on. As oil-water contact in the lower part of Ulakhansky horizon makes fracturing the well inexpedient, multi hole drilling technology was implemented enabling drainage of the reserves that are far from the main borehole. The main objective of this well is to deplete Botuobinsky horizon subsequently shutting it off and continuing to recover petroleum reserves from Ulakhansky pay zone. Constructing such well is cost-effective, as it requires drilling only one intermediate casing interval instead of two. Accumulated experience of drilling and completing multi hole wells was used to ensure successful well construction; also, geological and stratigraphic data as well as possible complications while drilling Botuobunsky and Ulakhansky formations were analyzed in-depth. The following appliances were selected to meet the objective: –Bottom-hole equipment enabling drilling abrasive formations under conditions of high vibrations;–Special line of drill bits to ensure high ROP and successful sidetracking without additional tripping;–RSS with 152.4 mm drill bit. The goal set by the operating company was achieved through multi-faceted approach to performing the task, efficient cooperation of engineering technical services and continuous monitoring of output data while drilling. All that combined delivered the results listed below: –Sidetracks were carried out in an open horizontal hole without cement plugs and additional tripping for drill bit or BHA.–Minimized bottom-hole equipment failures under condition of increased high-frequency vibrations from bit while drilling hard formations due to implementation of modular PDM with data-transmitting channel.–Minimized bottom-hole equipment failures under condition of increased low-frequency vibrations from drill string with Hard Bending due to improved BHA design and optimized drilling parameters selection.–Liner was effectively run to Botuobinsky and Ulakhansky reservoirs with an option to shut-off the former after depletion and gas breakthrough. This well is the first one targeted at two isolated formations in East Siberia.
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东西伯利亚第一口多边井对分离油藏的研究
本文介绍了在东西伯利亚油田成功建造非常规和独特的水平井的工程和技术解决方案,该水平井针对两个孤立的地层,在天然气突破后,可以选择关闭Botuobinsky层顶,并从Ulakhansky层下进一步开采石油。由于Ulakhansky层位下部的油水接触面使得压裂井不方便,因此采用了多孔钻井技术,使远离主井眼的储量得以排出。该井的主要目的是耗尽Botuobinsky层,随后关闭该层,并继续从Ulakhansky产层开采石油储量。建造这样的井具有成本效益,因为只需要钻一个中间套管,而不是两个。利用积累的多井钻完井经验,保证了施工的顺利进行;此外,还深入分析了地质和地层数据,以及钻井Botuobunsky和Ulakhansky地层时可能出现的并发症。为了实现这一目标,选择了以下设备:能够在高振动条件下钻出磨蚀性地层的井底设备;特殊的钻头系列,确保高ROP和成功的侧钻,而无需额外起下钻;152.4 mm钻头的rss。通过多方面的任务执行、工程技术服务的高效合作以及钻井过程中对输出数据的持续监测,实现了运营公司设定的目标。所有这些综合起来取得了如下成果:侧钻在开放的水平井中进行,没有水泥塞,也没有额外的钻头或BHA起下钻。由于采用了带有数据传输通道的模块化PDM,在钻硬地层时,钻头高频振动增加的情况下,将井底设备故障降至最低。由于改进的BHA设计和优化的钻井参数选择,在硬弯曲钻柱低频振动增加的情况下,将井底设备故障降至最低。尾管有效地下入Botuobinsky和Ulakhansky储层,并可选择在枯竭和天然气突破后关闭前者。这口井是第一口针对东西伯利亚两个孤立地层的井。
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