Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
10293412 | Nuclear Engineering and Design | 2005 | 13 Pages |
Abstract
This study was performed to define the seismic loading conditions for use in the crack stability assessment of a BWR for the applicability of the leak-before-break (LBB) criterion. The LBB has been applied to the design of Class 1 piping in Japanese light-water reactors. Crack penetrated condition with detectable leak in the LBB applicability review is classified into the Level C service condition. Here an S1-earthquake (maximum design earthquake) is currently assumed, rather than an S2-earthquake (extreme design earthquake). In order to justify this assumption, the frequency of an S1-earthquake occurring during coolant leakage due to crack propagation was determined. The frequency of coolant leakage from Class 1 piping must be less than that of the Level C service condition (2.5Â ÃÂ 10â2 to 1Â ÃÂ 10â4 per year) in order to assume that an S1-earthquake is appropriate. Accordingly, the frequency of coolant leakage from Class 1 piping was calculated using a probabilistic fracture mechanics (PFM). The results of this analysis indicate that the frequency of coolant leakage from Class 1 piping is less than the expected occurrence of an S1-earthquake. As the results, it is concluded that the assumption of the seismic loading employed in an LBB applicability review should be appropriate.
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Authors
Hideo Machida, Norimichi Yamashita, Shinobu Yoshimura, Genki Yagawa,