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http://dx.doi.org/10.1016/j.net.2016.12.009

Study on Quantification Method Based on Monte Carlo Sampling for Multiunit Probabilistic Safety Assessment Models  

Oh, Kyemin (KHNP Central Research Institute)
Han, Sang Hoon (Korea Atomic Energy Research Institute)
Park, Jin Hee (Korea Atomic Energy Research Institute)
Lim, Ho-Gon (Korea Atomic Energy Research Institute)
Yang, Joon Eon (Korea Atomic Energy Research Institute)
Heo, Gyunyoung (Kyung Hee University)
Publication Information
Nuclear Engineering and Technology / v.49, no.4, 2017 , pp. 710-720 More about this Journal
Abstract
In Korea, many nuclear power plants operate at a single site based on geographical characteristics, but the population density near the sites is higher than that in other countries. Thus, multiunit accidents are a more important consideration than in other countries and should be addressed appropriately. Currently, there are many issues related to a multiunit probabilistic safety assessment (PSA). One of them is the quantification of a multiunit PSA model. A traditional PSA uses a Boolean manipulation of the fault tree in terms of the minimal cut set. However, such methods have some limitations when rare event approximations cannot be used effectively or a very small truncation limit should be applied to identify accident sequence combinations for a multiunit site. In particular, it is well known that seismic risk in terms of core damage frequency can be overestimated because there are many events that have a high failure probability. In this study, we propose a quantification method based on a Monte Carlo approach for a multiunit PSA model. This method can consider all possible accident sequence combinations in a multiunit site and calculate a more exact value for events that have a high failure probability. An example model for six identical units at a site was also developed and quantified to confirm the applicability of the proposed method.
Keywords
Accident Sequence Combination; Monte Carlo; Multiunit Probabilistic Safety Assessment; Quantification;
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