An Integrated Approach to Efficient Drilling through Unstable Coal Intervals Using Different Types of Mud in the Yamal Region

Alexander V. Kabanov, A. Galimkhanov, A. Kharitonov, Alexander Mikhailovich Matsera, V. Pogurets, Ruslan Shamilevich Mavlyutov, Denis Vladimirovich Dolmatov, S. A. Sokovnin
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Abstract

This article is a description of an integrated engineering approach to solutions selection for efficient and safe drilling of unstable intervals represented by interbedded coal and argillite layers. Due to specific features of these formations, any significant mechanical stress, as well as penetration of drilling fluid filtrate, may lead to wellbore instability regardless of the drilling mud type used. The paper presents a description of the features of drilling in unstable intervals with various types of drilling muds (WBM/OBM) in Yamalo-Nenets Autonomous Okrug (YNAO). Experience has shown that drilling through coal intervals prone to instability may cause significant non-productive time (NPT). Such wells should be designed with an integrated engineering approach, which covers the entire cycle: starting with the well path planning, casing setting depths selection, BHA design and drilling regimes of the risk interval. No less important, detailed development of solutions for drilling muds. During the study the main causes of issues in wells drilled through the interbedded formations of coal and argillites in two fields were identified. As a result, a set of measures was developed to minimize risks for each type of mud (OBM and WBM): – Revision of the initial well design solutions. Selection of optimal mud weight based on the experience gained and the geomechanical model – Revision of chemicals concentrations together with the use of additional additives – Placement of stabilizing pills across unstable intervals – Well path optimization – Development of safe drilling procedures. The measures developed for various types of drilling muds allowed minimizing the NPT and successfully completing the wells on time. The experience gained formed the basis for recommendations to prevent issues associated with the coal layers instability in the region.
亚马尔地区不同类型泥浆在不稳定煤段高效钻井的综合方法
本文描述了一种综合工程方法,以有效和安全的钻进以煤和泥质夹层为代表的不稳定层段。由于这些地层的特殊特性,无论使用何种钻井泥浆,任何显著的机械应力以及钻井液滤液的渗透都可能导致井筒不稳定。介绍了亚马尔-涅涅茨自治区(YNAO)不同类型钻井液(WBM/OBM)在不稳定井段的钻井特点。经验表明,在易失稳的煤层中钻井可能会导致大量的非生产时间(NPT)。此类井的设计应采用综合工程方法,涵盖整个周期:从井径规划、套管下入深度选择、BHA设计和风险段的钻井方案开始。同样重要的是,钻井泥浆解决方案的详细开发。在研究过程中,确定了两个油田煤与泥质互层地层中钻井出现问题的主要原因。因此,开发人员制定了一套措施,以最大限度地降低每种泥浆(OBM和WBM)的风险。根据所获得的经验和地质力学模型选择最佳泥浆比重——化学物质浓度的修正以及额外添加剂的使用——在不稳定的井段放置稳定丸——井眼轨迹优化——安全钻井程序的开发。针对不同类型的钻井泥浆开发的措施可以最大限度地减少NPT,并按时成功完井。所取得的经验构成了建议的基础,以防止与该区域煤层不稳定有关的问题。
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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