A Limited-Scope Probabilistic Risk Assessment Study to Risk-Inform the Design of a Fuel Storage System for Spent Pebble-Filled Dry Casks

Joomyung Lee, H. Tayfur, Mostafa M. Hamza, Y. Alzahrani, M. Diaconeasa
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Abstract

This limited-scope study demonstrates the application of probabilistic risk assessment (PRA) methodologies to a spent fuel storage system for spent pebble-filled dry cask with a focus only on the necessary PRA technical elements sufficient to risk-inform the spent fuel storage system design. A dropping canister scenario in a silo of the spent fuel storage system is analyzed through an initiating event (IE) identification from the Master Logic Diagram (MLD); event sequence analysis (ES) by establishing the event tree; data analysis (DA) for event sequence quantification (ESQ) with uncertainty quantification; mechanistic source term (MST) analysis by using ORIGEN; radiological consequence analysis (RC) by deploying MicroShield, and risk integration (RI) by showing the Frequency-Consequence (F-C) target curve in the emergency area boundary (EAB). Additionally, a sensitivity study is conducted using the ordinary least square (OLS) regression method to assess the impact of variables such as failed pebble numbers, their location in the canister, and building wall thickness. Furthermore, the release categories grouped from the end states in the event tree are verified as safety cases through the F-C curve. This study highlights the implementation of PRA elements in a logical and structured manner, using appropriate methodologies and computational tools, thereby showing how to risk-inform the design of a dry cask system for storing spent pebble-filled fuel.
基于有限范围概率风险评估的废卵石干桶燃料储存系统设计研究
这项有限范围的研究展示了概率风险评估(PRA)方法在乏燃料储存系统中的应用,该系统用于乏燃料填充干桶,其重点仅放在必要的PRA技术要素上,这些技术要素足以为乏燃料储存系统设计提供风险信息。通过主逻辑图(MLD)中的初始事件(IE)识别,分析了乏燃料储存系统筒仓中的落罐场景;通过建立事件树进行事件序列分析;采用不确定度量化的事件序列量化数据分析(DA);利用ORIGEN进行机制源项(MST)分析;通过部署MicroShield进行辐射后果分析(RC),以及通过在应急区域边界(EAB)显示频率-后果(F-C)目标曲线进行风险整合(RI)。此外,使用普通最小二乘(OLS)回归方法进行敏感性研究,以评估诸如失效卵石数量、它们在罐中的位置和建筑壁厚等变量的影响。此外,通过F-C曲线验证了从事件树的最终状态分组的释放类别为安全案例。本研究强调以逻辑和结构化的方式实施PRA元素,使用适当的方法和计算工具,从而展示了如何为储存废卵石填充燃料的干桶系统的设计提供风险信息。
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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