The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami

The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami

The tsunami generated on 12 July 1993 by the Hokkaido–Nansei–Oki earthquake (<i>M</i><sub>w</sub> = 7.8) brought about a maximum wave run-up of 31.7 m, the highest recorded in Japan during the 20th century, near the Monai Valley on the west coast of Okushiri Island (Hokkaid...

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Main Authors: K. O. Kim, D. C. Kim, B. H. Choi, K. T. Jung, J. H. Yuk, E. Pelinovsky
Format: Article
Language:English
Published: Copernicus Publications 2015-04-01
Series:Natural Hazards and Earth System Sciences
Online Access:http://www.nat-hazards-earth-syst-sci.net/15/747/2015/nhess-15-747-2015.pdf
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spelling doaj-a0c1622c5cf14263b5e9fa7cb45fdc4e2020-11-24T23:13:40ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812015-04-0115474775510.5194/nhess-15-747-2015The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunamiK. O. Kim0D. C. Kim1B. H. Choi2K. T. Jung3J. H. Yuk4E. Pelinovsky5Marine Radionuclide Research Center, Korea Institute of Ocean Science and Technology, Ansan, 426-744, KoreaTechnology R&D Institute, Hyein E&C Co. Ltd., Seoul, 157-861, KoreaDepartment of Civil and Environmental Engineering, Sungkyunkwan University, Chunchun-dong 300, Jangan-gu, Suwon, 440-746, KoreaMarine Radionuclide Research Center, Korea Institute of Ocean Science and Technology, Ansan, 426-744, KoreaDisaster Management HPC Technology Research Center, Korea Institute of Science and Technology Information, Daejeon, 305-806, KoreaNizhny Novgorod State Technical University n.a. R.E. Alekseev, Nizhny Novgorod, 603950, RussiaThe tsunami generated on 12 July 1993 by the Hokkaido–Nansei–Oki earthquake (<i>M</i><sub>w</sub> = 7.8) brought about a maximum wave run-up of 31.7 m, the highest recorded in Japan during the 20th century, near the Monai Valley on the west coast of Okushiri Island (Hokkaido Tsunami Survey Group, 1993). To reproduce the extreme run-up height, the three-dimensional non-hydrostatic model (Flow Science, 2012), referred to here as the NH-model, has been locally applied with open boundary conditions supplied in an offline manner by the three-dimensional hydrostatic model (Ribeiro et al., 2011), referred to here as the H-model. The area of the H-model is sufficiently large to cover the entire fault region with one-way nested multiple domains. For the initial water deformation, Okada's fault model (1985) using the sub-fault parameters is applied. <br><br> Three NH-model experiments have been performed, namely without islands, with one island and with two islands. The experiments with one island and with two islands give rise to values close to the observation with maximum run-up heights of about 32.3 and 30.8 m, respectively, while the experiment without islands gives rise to about 25.2 m. The diffraction of the tsunami wave primarily by Muen Island, located in the south, and the southward topographic guiding of the tsunami run-up at the coast are, as in the laboratory simulation (Yoneyama et al., 2002), found to result in the extreme run-up height near Monai Valley. The presence of Hira Island enhances the diffraction of tsunami waves but its contribution to the extreme run-up height is marginal.http://www.nat-hazards-earth-syst-sci.net/15/747/2015/nhess-15-747-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. O. Kim
D. C. Kim
B. H. Choi
K. T. Jung
J. H. Yuk
E. Pelinovsky
spellingShingle K. O. Kim
D. C. Kim
B. H. Choi
K. T. Jung
J. H. Yuk
E. Pelinovsky
The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
Natural Hazards and Earth System Sciences
author_facet K. O. Kim
D. C. Kim
B. H. Choi
K. T. Jung
J. H. Yuk
E. Pelinovsky
author_sort K. O. Kim
title The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
title_short The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
title_full The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
title_fullStr The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
title_full_unstemmed The role of diffraction effects in extreme run-up inundation at Okushiri Island due to 1993 tsunami
title_sort role of diffraction effects in extreme run-up inundation at okushiri island due to 1993 tsunami
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2015-04-01
description The tsunami generated on 12 July 1993 by the Hokkaido–Nansei–Oki earthquake (<i>M</i><sub>w</sub> = 7.8) brought about a maximum wave run-up of 31.7 m, the highest recorded in Japan during the 20th century, near the Monai Valley on the west coast of Okushiri Island (Hokkaido Tsunami Survey Group, 1993). To reproduce the extreme run-up height, the three-dimensional non-hydrostatic model (Flow Science, 2012), referred to here as the NH-model, has been locally applied with open boundary conditions supplied in an offline manner by the three-dimensional hydrostatic model (Ribeiro et al., 2011), referred to here as the H-model. The area of the H-model is sufficiently large to cover the entire fault region with one-way nested multiple domains. For the initial water deformation, Okada's fault model (1985) using the sub-fault parameters is applied. <br><br> Three NH-model experiments have been performed, namely without islands, with one island and with two islands. The experiments with one island and with two islands give rise to values close to the observation with maximum run-up heights of about 32.3 and 30.8 m, respectively, while the experiment without islands gives rise to about 25.2 m. The diffraction of the tsunami wave primarily by Muen Island, located in the south, and the southward topographic guiding of the tsunami run-up at the coast are, as in the laboratory simulation (Yoneyama et al., 2002), found to result in the extreme run-up height near Monai Valley. The presence of Hira Island enhances the diffraction of tsunami waves but its contribution to the extreme run-up height is marginal.
url http://www.nat-hazards-earth-syst-sci.net/15/747/2015/nhess-15-747-2015.pdf
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