Validation of tsunami numerical simulation models for an idealized coastal industrial site

Masashi Watanabe; Taro Arikawa; Naoto Kihara; Chiaki Tsurudome; Koichi Hosaka; Tatsuto Kimura; Takayuki Hashimoto; Fumitaka Ishihara; Takemi Shikata; Daniel Shigueo Morikawa; Taiga Makino; Mitsuteru Asai; Yu Chida; Yoichi Ohnishi; Simone Marras; Abhishek Mukherjee; Juan Carlos Cajas; Guillaume Houzeaux; B. D. Paolo; Javier L. Lara; Gabriel Barajas; Íñigo J. Losada; Masanobu Hasebe; Yoshinori Shigihara; Tatsuya Asai; Tsuyoshi Ikeya; Shusaku Inoue; Hideo Matsutomi; Yoshiaki Nakano; Yasuo Okuda; Shunya Okuno; Takayuki Ooie; Gaku Shoji; Tomokazu Tateno

doi:10.1080/21664250.2022.2072611

Validation of tsunami numerical simulation models for an idealized coastal industrial site

Masashi Watanabe, Taro Arikawa, Naoto Kihara, Chiaki Tsurudome, Koichi Hosaka, Tatsuto Kimura, Takayuki Hashimoto, Fumitaka Ishihara, Takemi Shikata, Daniel Shigueo Morikawa, Taiga Makino, Mitsuteru Asai, Yu Chida, Yoichi Ohnishi, Simone Marras, Abhishek Mukherjee, Juan Carlos Cajas, Guillaume Houzeaux, B. D. Paolo, Javier L. LaraGabriel Barajas, Íñigo J. Losada, Masanobu Hasebe, Yoshinori Shigihara, Tatsuya Asai, Tsuyoshi Ikeya, Shusaku Inoue, Hideo Matsutomi, Yoshiaki Nakano, Yasuo Okuda, Shunya Okuno, Takayuki Ooie, Gaku Shoji, Tomokazu Tateno

構造及び地震工学

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

6 被引用数 (Scopus)

抄録

Numerous tsunami numerical models have been proposed, but their prediction accuracies have not been directly compared. For quantifying the modeling uncertainties, the authors statistically analyzed the prediction results submitted by participants in the tsunami blind contest held at the 17th World Conference on Earthquake Engineering. The reproducibility of offshore water level generated due to the tsunami with soliton fission significantly decreased when the nonlinear shallow water equation models (NSWE) was used compared to three-dimensional (3D) models. The inundation depth was reproduced well in 3D models. However, the reproducibility of wave forces acting on the structure and velocities over land was lower in 3D models than that in NSWE models. For cases where the impulsive tsunami wave pressure generated could not be calculated based on the hydrostatic assumption, the prediction accuracy of the NSWE models was higher than that of the 3D models. The prediction accuracies of both models were not improved at small grid-cell sizes. The NSWE model cannot simulate the short-wave component and vertical pressure distribution. Therefore, further developments in 3D models and smoothed particle hydrodynamics methods (SPH) are needed. The presented results contribute to the future development of tsunami numerical simulation tools.

本文言語	英語
ページ（範囲）	302-343
ページ数	42
ジャーナル	Coastal Engineering Journal
巻	64
号	2
DOI	https://doi.org/10.1080/21664250.2022.2072611
出版ステータス	出版済み - 2022

!!!All Science Journal Classification (ASJC) codes

土木構造工学
モデリングとシミュレーション
海洋工学

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10.1080/21664250.2022.2072611

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Watanabe, M., Arikawa, T., Kihara, N., Tsurudome, C., Hosaka, K., Kimura, T., Hashimoto, T., Ishihara, F., Shikata, T., Morikawa, D. S., Makino, T., Asai, M., Chida, Y., Ohnishi, Y., Marras, S., Mukherjee, A., Cajas, J. C., Houzeaux, G., Paolo, B. D., ... Tateno, T. (2022). Validation of tsunami numerical simulation models for an idealized coastal industrial site. Coastal Engineering Journal, 64(2), 302-343. https://doi.org/10.1080/21664250.2022.2072611

Watanabe, M, Arikawa, T, Kihara, N, Tsurudome, C, Hosaka, K, Kimura, T, Hashimoto, T, Ishihara, F, Shikata, T, Morikawa, DS, Makino, T, Asai, M, Chida, Y, Ohnishi, Y, Marras, S, Mukherjee, A, Cajas, JC, Houzeaux, G, Paolo, BD, Lara, JL, Barajas, G, Losada, ÍJ, Hasebe, M, Shigihara, Y, Asai, T, Ikeya, T, Inoue, S, Matsutomi, H, Nakano, Y, Okuda, Y, Okuno, S, Ooie, T, Shoji, G & Tateno, T 2022, 'Validation of tsunami numerical simulation models for an idealized coastal industrial site', Coastal Engineering Journal, vol. 64, no. 2, pp. 302-343. https://doi.org/10.1080/21664250.2022.2072611

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title = "Validation of tsunami numerical simulation models for an idealized coastal industrial site",

abstract = "Numerous tsunami numerical models have been proposed, but their prediction accuracies have not been directly compared. For quantifying the modeling uncertainties, the authors statistically analyzed the prediction results submitted by participants in the tsunami blind contest held at the 17th World Conference on Earthquake Engineering. The reproducibility of offshore water level generated due to the tsunami with soliton fission significantly decreased when the nonlinear shallow water equation models (NSWE) was used compared to three-dimensional (3D) models. The inundation depth was reproduced well in 3D models. However, the reproducibility of wave forces acting on the structure and velocities over land was lower in 3D models than that in NSWE models. For cases where the impulsive tsunami wave pressure generated could not be calculated based on the hydrostatic assumption, the prediction accuracy of the NSWE models was higher than that of the 3D models. The prediction accuracies of both models were not improved at small grid-cell sizes. The NSWE model cannot simulate the short-wave component and vertical pressure distribution. Therefore, further developments in 3D models and smoothed particle hydrodynamics methods (SPH) are needed. The presented results contribute to the future development of tsunami numerical simulation tools.",

keywords = "Tsunami, laboratory test, numerical simulation, validation",

author = "Masashi Watanabe and Taro Arikawa and Naoto Kihara and Chiaki Tsurudome and Koichi Hosaka and Tatsuto Kimura and Takayuki Hashimoto and Fumitaka Ishihara and Takemi Shikata and Morikawa, {Daniel Shigueo} and Taiga Makino and Mitsuteru Asai and Yu Chida and Yoichi Ohnishi and Simone Marras and Abhishek Mukherjee and Cajas, {Juan Carlos} and Guillaume Houzeaux and Paolo, {B. D.} and Lara, {Javier L.} and Gabriel Barajas and Losada, {{\'I}{\~n}igo J.} and Masanobu Hasebe and Yoshinori Shigihara and Tatsuya Asai and Tsuyoshi Ikeya and Shusaku Inoue and Hideo Matsutomi and Yoshiaki Nakano and Yasuo Okuda and Shunya Okuno and Takayuki Ooie and Gaku Shoji and Tomokazu Tateno",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.",

year = "2022",

doi = "10.1080/21664250.2022.2072611",

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AU - Watanabe, Masashi

AU - Arikawa, Taro

AU - Kihara, Naoto

AU - Tsurudome, Chiaki

AU - Hosaka, Koichi

AU - Kimura, Tatsuto

AU - Hashimoto, Takayuki

AU - Ishihara, Fumitaka

AU - Shikata, Takemi

AU - Morikawa, Daniel Shigueo

AU - Makino, Taiga

AU - Asai, Mitsuteru

AU - Chida, Yu

AU - Ohnishi, Yoichi

AU - Marras, Simone

AU - Mukherjee, Abhishek

AU - Cajas, Juan Carlos

AU - Houzeaux, Guillaume

AU - Paolo, B. D.

AU - Lara, Javier L.

AU - Barajas, Gabriel

AU - Losada, Íñigo J.

AU - Hasebe, Masanobu

AU - Shigihara, Yoshinori

AU - Asai, Tatsuya

AU - Ikeya, Tsuyoshi

AU - Inoue, Shusaku

AU - Matsutomi, Hideo

AU - Nakano, Yoshiaki

AU - Okuda, Yasuo

AU - Okuno, Shunya

AU - Ooie, Takayuki

AU - Shoji, Gaku

AU - Tateno, Tomokazu

PY - 2022

Y1 - 2022

N2 - Numerous tsunami numerical models have been proposed, but their prediction accuracies have not been directly compared. For quantifying the modeling uncertainties, the authors statistically analyzed the prediction results submitted by participants in the tsunami blind contest held at the 17th World Conference on Earthquake Engineering. The reproducibility of offshore water level generated due to the tsunami with soliton fission significantly decreased when the nonlinear shallow water equation models (NSWE) was used compared to three-dimensional (3D) models. The inundation depth was reproduced well in 3D models. However, the reproducibility of wave forces acting on the structure and velocities over land was lower in 3D models than that in NSWE models. For cases where the impulsive tsunami wave pressure generated could not be calculated based on the hydrostatic assumption, the prediction accuracy of the NSWE models was higher than that of the 3D models. The prediction accuracies of both models were not improved at small grid-cell sizes. The NSWE model cannot simulate the short-wave component and vertical pressure distribution. Therefore, further developments in 3D models and smoothed particle hydrodynamics methods (SPH) are needed. The presented results contribute to the future development of tsunami numerical simulation tools.

AB - Numerous tsunami numerical models have been proposed, but their prediction accuracies have not been directly compared. For quantifying the modeling uncertainties, the authors statistically analyzed the prediction results submitted by participants in the tsunami blind contest held at the 17th World Conference on Earthquake Engineering. The reproducibility of offshore water level generated due to the tsunami with soliton fission significantly decreased when the nonlinear shallow water equation models (NSWE) was used compared to three-dimensional (3D) models. The inundation depth was reproduced well in 3D models. However, the reproducibility of wave forces acting on the structure and velocities over land was lower in 3D models than that in NSWE models. For cases where the impulsive tsunami wave pressure generated could not be calculated based on the hydrostatic assumption, the prediction accuracy of the NSWE models was higher than that of the 3D models. The prediction accuracies of both models were not improved at small grid-cell sizes. The NSWE model cannot simulate the short-wave component and vertical pressure distribution. Therefore, further developments in 3D models and smoothed particle hydrodynamics methods (SPH) are needed. The presented results contribute to the future development of tsunami numerical simulation tools.

KW - Tsunami

KW - laboratory test

KW - numerical simulation

KW - validation

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DO - 10.1080/21664250.2022.2072611

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JO - Coastal Engineering Journal

JF - Coastal Engineering Journal

IS - 2

ER -

Validation of tsunami numerical simulation models for an idealized coastal industrial site

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!!!All Science Journal Classification (ASJC) codes

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