基于可靠性的结构风险评估及相关经济收益

Mohamed M. Atia, A. Abdelkhalek, A. Sarkar, M. Keys, M. Patel, Mohammed Eissa, Tarek Omar
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引用次数: 0

摘要

管理大型海上设施是一个动态过程,旨在最大限度地降低人员、环境和企业的风险,并最大限度地减少相关的运营支出。通过ADNOC Offshore和Kent(前身为Atkins Oil & Gas, Atkins, 2020)的共同努力,经过修订的结构评估和完整性方法已经节省了大量成本。由于无需安装许多新的海上结构,并且减少了海底检查相关工作,因此节省了大量成本。根据各资产的失效后果,采用目标失效概率来评价海上资产的结构性能。因此,针对每个结构进行结构可靠度分析,其中分析考虑了结构特定的环境危害曲线和破坏面。通过将评估的结构失效概率与ADNOC公司风险矩阵的HSE Likelihood进行映射,将每个结构精确地置于风险矩阵中。此外,检查间隔和上层甲板、飞溅区、海底I、II和III级被映射到风险矩阵上的每个风险评估。采用特定结构的可靠性分析和ADNOC公司风险矩阵映射的优化方法产生了可观的成本效益,同时提供了更准确的每个资产风险表示。与传统方法相比,开发过程的结果是,大约41%的资产获得了较低的风险评估,并提供了额外的结构能力,可用于未来的扩建,并消除了安装新资产的要求。随着该流程扩展到包括资产检查,海底检查需求减少了约43%,这反映了运营成本的大幅降低。风险改进的主要贡献归功于考虑了风暴的主要接近方向,波浪和电流的震级和方向的联合概率,以及每个结构的相对对齐。所开发的方法提供了一个框架,允许对风险评估进行持续更新,并使执行人员和管理人员能够在一致的结构风险度量的支持下做出基于风险的决策。这已转化为编制结构护照(简要报告),清楚地表明资产当前的风险,并在认为需要时提出缓解措施建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reliability Based Structural Risk Assessments and Associated Economic Gains
Managing a large fleet of offshore structures is a dynamic process that aims at minimising risks to personnel, environment, and businesses, as well as minimising the associated Operations Expenditure. Through the collaborative efforts of ADNOC Offshore and Kent, formerly Atkins Oil & Gas, (Atkins, 2020), revised structural evaluation and integrity approaches have yielded significant cost savings. The considerable savings were associated with the elimination of the requirement for installing many new offshore structures and through reducing the subsea inspection associated efforts. The approach for evaluating the offshore assets’ structural performance was developed based on adopting target probability of failure figures subject to each asset's consequence of failure. Accordingly, structural reliability analyses were conducted specific to each structure, where the analysis considered structure specific environmental hazard curves and failure surfaces. Through mapping the evaluated structural probability of failure and ADNOC's corporate risk matrix's HSE Likelihood, each structure was precisely placed on the risk matrix. Furthermore, the inspection intervals and Topsides, Splash Zone, Subsea Levels I, II and III were mapped to each risk evaluation on the risk matrix. The optimisation approach of adopting a structure specific reliability analysis and mapping with ADNOC's corporate risk matrix yielded considerable cost benefits while providing a more accurate representation of each asset's risk. As a result of the implementation of the developed process, approximately 41% of the assets got lower risk evaluation compared to the legacy approach and presented extra structural capacities that can be utilised for future expansions and eliminating the requirement for installation of new assets. As the process expanded to include asset inspections, the subsea inspection requirements reduced by approximately 43% reflecting a considerable decrease in operating costs. A major contribution of the risk improvement is attributed to the consideration of the storm prevailing approach directions, the joint probability of wave and current magnitudes and directions, as well as the relative alignment of each structure. The developed approaches provide a framework that allows continuous update of the risk assessment and enables executives and management to make risk-based-decision supported by a consistent measure of structural risk. This has been translated into the generation of the Structural Passports (Summary reports) clearly demonstrating the assets current risk and recommendations for mitigation measures, if deemed required.
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