Human and Equipment Risk Factors Evaluation in Horizontal Directional Drilling Technology Using Failure Mode and Effect Analysis

IF 0.9 Q4 ENGINEERING, INDUSTRIAL

Management and Production Engineering Review Pub Date : 2023-07-20 DOI:10.24425/MPER.2021.137677

Adam Krechowicz, W. Gierulski, Stephen Loneragan, H. Kruse

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引用次数: 4

Abstract

Horizontal Directional Drilling (HDD) technology is a highly complex process connected with high risk and uncertainty due the high variability underground strata, often limited access to specialised equipment, dynamic natural environment, technical disruptions, human factor and changes in economic environment that further complicate the gathering of reliable information and data. This work presents a new risk evaluation model tailored for HDD technology, in which failure mode and eﬀect analysis (FMEA) modelling were applied. This paper focuses on 15 human risk factors and 9 equipment risk factors in HDD technology. The proposed approach takes into account not only the probability of the risk factor occurrence, but also its severity and the possibility of detecting faults, which were not clearly separated and analyzed in the previous works. Application of the proposed model shows the relationship between occurrence, severity and detection for the analyzed failures. Moreover, many detection possibilities for the identiﬁed failures were presented. The calculated risk priority numbers allowed to rank HDD failures and identify the most critical risks for which one should look for risk treatment possibilities beyond risk cause reduction, such as risk eﬀect reduction, risk transfer, risk elimination or active risk retention.

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基于失效模式和效果分析的水平定向钻井技术人员和设备风险因素评价

水平定向钻井（HDD）技术是一个高度复杂的过程，由于地下地层的高度可变性、对专业设备的访问往往有限、动态的自然环境、技术干扰、人为因素和经济环境的变化，这使可靠信息和数据的收集更加复杂，因此具有高风险和不确定性。这项工作提出了一种新的针对硬盘驱动器技术的风险评估模型，其中应用了故障模式和影响分析（FMEA）建模。本文重点研究了硬盘驱动器技术中的15个人为风险因素和9个设备风险因素。所提出的方法不仅考虑了风险因素发生的概率，还考虑了其严重性和检测故障的可能性，这些在以前的工作中没有明确地分离和分析。所提出的模型的应用表明了所分析故障的发生、严重程度和检测之间的关系。此外，还提出了许多检测已识别故障的可能性。计算出的风险优先级数字允许对硬盘驱动器故障进行排名，并确定最关键的风险，在降低风险原因之外，应寻找风险处理的可能性，如降低风险影响、转移风险、消除风险或主动保留风险。

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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来源期刊

Management and Production Engineering Review ENGINEERING, INDUSTRIAL-

CiteScore

2.80

自引率

21.40%

发文量

期刊介绍： Management and Production Engineering Review (MPER) is a peer-refereed, international, multidisciplinary journal covering a broad spectrum of topics in production engineering and management. Production engineering is a currently developing stream of science encompassing planning, design, implementation and management of production and logistic systems. Orientation towards human resources factor differentiates production engineering from other technical disciplines. The journal aims to advance the theoretical and applied knowledge of this rapidly evolving field, with a special focus on production management, organisation of production processes, management of production knowledge, computer integrated management of production flow, enterprise effectiveness, maintainability and sustainable manufacturing, productivity and organisation, forecasting, modelling and simulation, decision making systems, project management, innovation management and technology transfer, quality engineering and safety at work, supply chain optimization and logistics. Management and Production Engineering Review is published under the auspices of the Polish Academy of Sciences Committee on Production Engineering and Polish Association for Production Management.