Reduction in Backup Tool Requirements: Risks vs. Benefits, a Probability Analysis

IF 1.3 4区 工程技术 Q3 ENGINEERING, PETROLEUM
Steven Johannesen, T. Lagarigue, Gordon Shearer, K. Owen, Grant Wood, W. Hendry
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Abstract

A review of the use of measurement while drilling (MWD), logging while drilling (LWD), and directional drilling (DD) tools mobilized to offshore drilling units in the North Sea highlighted an opportunity to lower operational cost for the operator and reduce capital used for the oilfield services company. An objective was set to develop a risk-based probability model that would assess the positive and negative financial impacts of reducing, or perhaps entirely removing, backup tools in this historically risk-averse basin. The scope of the initial analysis was a drilling campaign on a single rig contracted by the operator (Rig A). This analysis was then extended to review scenarios in which several operations in close proximity would share backup tools. The last 3 years of MWD/LWD/DD tool reliability data from North Sea operations, recorded by the oilfield services company, were used as an input. To assess the probability of failure, a binomial model was developed to create a binomial distribution for each tool to calculate the probability of having zero to X failures for a selected tool or bottomhole assembly (BHA) for a given number of runs. Three binomial models were developed to study the effect of “easy,” “moderate,” and “challenging” drilling environments on tool reliability. A financial risk model was designed to balance the probability-weighted cost of failure for the operator against the lower costs resulting from reduced tool provision by the oilfield services company. To better estimate risks and financial impacts on the project, a sensitivity analysis was performed on the financial risk model using the three binomial models. As a result of the analysis, it was demonstrated that recent improvements in tool reliability support a reduction in the provision of backup MWD/LWD/DD drilling tools for the majority of North Sea drilling scenarios.
减少备份工具需求:风险与收益的概率分析
对北海海上钻井装置使用的随钻测量(MWD)、随钻测井(LWD)和定向钻井(DD)工具的审查强调了降低运营商运营成本和减少油田服务公司资本使用的机会。目标是开发一个基于风险的概率模型,该模型将评估在这个历史上厌恶风险的盆地中减少或完全取消备份工具的积极和消极财务影响。初步分析的范围是在运营商承包的单个钻机(钻机a)上进行的钻探活动。然后将此分析扩展到审查邻近的几个操作将共享备份工具的场景。油田服务公司记录的北海作业中最近3年的随钻测井/随钻测井/DD工具可靠性数据被用作输入。为了评估失效概率,开发了一个二项式模型,为每个工具创建二项式分布,以计算选定工具或井底钻具组合(BHA)在给定次数下发生0至X次失效的概率。开发了三个二项式模型来研究“简单”、“适度”和“具有挑战性”的钻井环境对工具可靠性的影响。设计了一个财务风险模型,以平衡操作员故障的概率加权成本与油田服务公司减少工具供应带来的较低成本。为了更好地估计风险和对项目的财务影响,使用三个二项式模型对财务风险模型进行了敏感性分析。分析结果表明,最近工具可靠性的提高支持减少北海大多数钻井方案的随钻测井/随钻测井/DD备用钻井工具的供应。
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来源期刊
SPE Drilling & Completion
SPE Drilling & Completion 工程技术-工程:石油
CiteScore
4.20
自引率
7.10%
发文量
29
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.
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