层次分析法(AHP)在中试工厂HAZOP分析排序中的应用

H. A. Aziz, M. Othman, A. Shariff, L. Tan
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引用次数: 4

摘要

世界各地都有在中试工厂工作时受伤、事故甚至死亡的报道。过程危害分析(PHA)在中试工厂的实施有望进一步降低事故风险。危害和可操作性(HAZOP)分析是PHA最广泛使用的方法之一。一般来说,HAZOP分析的结果可能导致识别大量危害,从而对评估人员采取措施处理所有危害提出了挑战。对关键危险进行优先排序的常见做法是基于评估人员的经验,通过使用评级量表进行演绎判断,同时考虑到安全性和相关成本。然而,由于使用了新的操作和工艺,未经验证或不断变化的技术,以及由于发展阶段而缺乏安全信息,导致危险优先级较差,难以选择行动。本文介绍了层次分析法(AHP)在中试工厂HAZOP排序分析中的应用。通过这种方法,使用HAZOP识别的重大危害将根据其优先级进行定量加权和排名,并采取适当的应对措施。该方法在高压co2 -碳氢化合物吸收系统中试工厂的应用表明,该方法能够根据HAZOP分析识别过程中的重大危害并对其进行排序。这对于工艺设计人员/工程师/研究人员将其努力和资源优先处理更重大的危害,从而防止试验工厂发生事故来说,是一个特别有用的领先指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Analytical Hierarchy Process (AHP) in Prioritizing HAZOP Analysis for Pilot Plant
Injuries, accidents or even fatalities while working in pilot plant are reported worldwide. The implementation of process hazards analysis (PHA) in pilot plant is expected to further reduce the risks of accidents. Hazard and operability (HAZOP) analysis is one of the most widely used methods for PHA. Generally, the outcome of HAZOP analysis could results in identifying large number of hazards thus poses a challenge for assessors to take actions in dealing with all the hazards. The common practice in prioritizing the critical hazards is based on assessors’ experience through deductive judgment using rating scale, taking into consideration safety and the associated costs. However the novel operations and process used, unproven or changing technology, and lack of safety information due to developmental stages have led to poor hazards prioritization and difficulty in selecting actions. This paper presents an application of analytical hierarchy process (AHP) in prioritizing HAZOP analysis for pilot plant. Through this approach, the significant hazards identified using HAZOP will be quantitatively weighted and ranked based on their priority along with the appropriate counter measures to be taken. Application of this approach at the high pressure CO2-hydrocarbon absorption system pilot plants as case study showed that the proposed methodology is capable of identifying and ranking the significant hazards in the process following HAZOP analysis. This is particularly useful as a leading indicator to process designers/engineers/researcher in prioritizing their efforts and resources on more significant hazards, hence prevent accidents of the pilot plant.
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