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Tsunami Assessment for Risk Management at Nuclear Power Facilities in Japan
Authors:Ken Yanagisawa  Fumihiko Imamura  Tsutomu Sakakiyama  Tadashi Annaka  Tomoyoshi Takeda  Nobuo Shuto
Affiliation:(1) Tokyo Electric Power Company, 1-3, Uchisaiwai-cho 1-chome, Chiyoda-ku, Tokyo 100-8560, Japan;(2) Disaster Control Research Center, Tohoku University, Aoba 06, Aramaki, Aoba-ku, Sendai 980-8579, Japan;(3) Central Research Institute of Electric Power Industry, 1646, Abiko, Abiko 270-1166, Japan;(4) Tokyo Electric Power Services Co., Ltd, 3-3, Higashi-ueno 3-chome, Taito-ku, Tokyo, 110-0015, Japan;(5) Advanced Research Institute for the Sciences and Humanities, Nihon University, 12-5, Goban-cho, Chiyoda-ku, Tokyo 102-8251, Japan
Abstract:The present study focuses on evaluation of the maximum and minimum water levels caused by tsunamis as risk factors for operation and management at nuclear power facilities along the coastal area of Japan. Tsunamis generated by submarine earthquakes are examined, basing literature reviews and databases of information on historical tsunami events and run-up heights. For simulation of water level along the coast, a numerical calculation system should be designed with computational regions covering a particular site. Also the calculation system should be verified by comparison of historical and calculated tsunami heights. At the beginning of the tsunami assessment, the standard faults, their locations, mechanisms and maximum magnitudes should be carefully estimated by considering historical earthquake-induced tsunamis and seismo-tectonics at each area. Secondly, the range of errors in the model parameters should be considered since earthquakes and tsunamis are natural phenomena that involve natural variability as well as errors in estimating parameters. For these reasons, uncertainty-induced errors should be taken into account in the process of tsunami assessment with parametric study of the tsunami source model. The element tsunamis calculated by the standard fault models with the errors would be given for the design. Then, the design tsunami can be selected among the element tsunamis with the most significant impact, maximum and minimum water levels, on the site, bearing in mind the possible errors in the numerical calculation system. Finally, the design tsunami is verified by comparison with the run-up heights of historical tsunamis, ensuring that the design tsunami is selected as the highest of all historical and possible future tsunamis at the site.
Keywords:Tsunami assessment  design tsunami  standard fault model  nuclear power facility
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