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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 threedimensional (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.

 Fuente: Coastal Engineering Journal, 2022, 64(2), 302-343

 Publication date: 28/05/2022

 No. of pages: 44

 Publication type: Article

 DOI: 10.1080/21664250.2022.2072611

 ISSN: 2166-4250,1793-6292

 Publication Url: https://doi.org/10.1080/21664250.2022.2072611

Authorship

WATANABE, MASASHI

ARIKAWA, TARO

KIHARA, NAOTO

TSURUDOME, CHIAKI

HOSAKA, KOICHI

KIMURA, TATSUTO

HASHIMOTO, TAKAYUKI

ISHIHARA, FUMITAKA

SHIKATA, TAKEMI

MORIKAWA, DANIEL SHIGUEO

MAKINO, TAIGA

ASAI, MITSUTERU

CHIDA, YU

OHNISHI, YOICHI

MARRAS, SIMONE

MUKHERJEE, ABHISHEK

CAJAS, JUAN CARLOS

HOUZEAUX, GUILLAUME

BENEDETTO DI PAOLO