Missile Risk Assessment for Nuclear Power Plant Under Super Typhoon

Volume 13: Risk Assessments and Management Pub Date : 2022-08-08 DOI:10.1115/icone29-93391

Bingchen Feng, Jie Zhou

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Abstract

Structures, systems and components (SSCs) of nuclear power plants are susceptible to wind-generated missiles under super typhoon, especially for water tanks and electrical equipment arranged in the open air. The tank of the conventional island demineralized water distribution (SER) system is the largest open-air tank of CPR1000 nuclear power plant, which has a high probability of being affected by missiles. To evaluate the missile risk for nuclear power plant under super typhoon, taking SER tank for example, an analysis using probabilistic safety assessment (PSA) method focused on typical accident sequences is carried out. Based on qualitative analysis of initiating events and mitigation functions required, the missile PSA model is established considered the failure probabilities of SER tank under different typhoon conditions. The quantitative evaluation is carried out from the aspect of accident mitigation and overall risk of the unit. The results show that the SER tank is one of the main weaknesses in accident mitigation and has a certain contribution to the overall risk of the unit. Therefore, the risk of missile for nuclear power plant under super typhoon should be concerned.

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超强台风下核电站导弹风险评估

核电站的结构、系统和部件(SSCs)在超强台风下容易受到风力导弹的影响，特别是露天布置的水箱和电气设备。常规岛除盐配水(SER)系统水箱是CPR1000核电站最大的露天水箱，受到导弹影响的概率很大。为评估超强台风作用下核电站的导弹风险，以SER储罐为例，以典型事故序列为重点，采用概率安全评估(PSA)方法进行分析。在定性分析初始事件和所需缓解功能的基础上，建立了考虑不同台风条件下SER油箱失效概率的导弹PSA模型。从事故缓解和机组整体风险两方面进行定量评价。结果表明，SER储罐是事故缓解的主要弱点之一，对机组整体风险有一定贡献。因此，在超强台风的作用下，核电站的导弹风险值得关注。

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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Volume 13: Risk Assessments and Management

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