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高温气冷堆早期设计阶段识别并量化一套完整的满功率始发事件

Identifying and quantifying a complete set of full-power initiating events during early design stages of high-temperature gas-cooled reactors

Reliability Engineering and System Safety · 2023
被引 4
ABS 3

中文导读

针对高温气冷堆缺乏运行经验的问题,提出结合自上而下演绎法、主逻辑图、热平衡故障树和自下而上归纳法等方法,识别Xe-100堆型的完整始发事件清单,并利用约束无信息分布估算其频率和不确定性参数。

Abstract

Identifying initiating events is the first step in building a probabilistic risk assessment model. The history of commercial nuclear power plant is primarily light-water reactors, hence, a comprehensive set of possible initiating events that covers most available light-water reactors is identified allowing for a frequentist approach to estimating their associated frequencies. However, other technologies of nuclear power plants do not share the same operating experience, hence, there are no comprehensive lists of initiating events for non-light-water reactors. This paper presents an approach that utilizes top-down deductive methodologies, master logic diagrams, and heat balance fault trees; the bottom-up inductive methodology of failure modes and effects analysis; and legacy and contemporary information to identify a complete list of initiating events for the Xe-100 high-temperature gas-cooled reactor (HTGR). Moreover, the paper presents the approach on how to estimate the frequencies using legacy sources along with deterministic analysis and fault trees. Furthermore, the paper presents an approach to estimate uncertainty parameters associated with each of these initiating events using constrained non-informative distributions to account for lack of operating experience. Finally, the paper presents the list of identified initiating events for the Xe-100 along with their frequencies and uncertainty parameters which serves, along with other contemporary sources, as another building block in having a comprehensive set of initiating events for HTGRs.

核工程概率安全评估高温气冷堆始发事件分析