Simulation of Storm Surge and Wave Due to Typhoon Isewan （5915）

An integrally coupled wave-tide-surge model was developed and then applied to the simulation of the wave-typhoon surge for the typhoon Isewan （typhoon Vera （5915））, which is the strongest typhoon that has struck Japan and caused incalculable damage. An integrally coupled tide-surge-wave model using...

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Veröffentlicht in:	中国海洋工程：英文版 2015, Vol.29 (4), p.473-488
1. Verfasser:	Jin-Hee YUK Kyeong Ok KIM Han Soo LEE Byung Ho CHOI
Format:	Artikel
Sprache:	eng
Schlagworte:	台风风暴潮有效波高模型组件模拟波流相互作用海浪预报网格系统非结构化
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creator	Jin-Hee YUK Kyeong Ok KIM Han Soo LEE Byung Ho CHOI
description	An integrally coupled wave-tide-surge model was developed and then applied to the simulation of the wave-typhoon surge for the typhoon Isewan （typhoon Vera （5915））, which is the strongest typhoon that has struck Japan and caused incalculable damage. An integrally coupled tide-surge-wave model using identical and homogeneous meshes in an unstructured grid system was used to correctly resolve the physics of wave-circulation interaction in both models. All model components were validated independently. The storm surge and wave properties such as the surge height, the significant wave height, wave period and direction were reproduced reasonably under the meteorological forcing, which was reprocessed to be close to the observations. The resulting modeling system can be used extensively for the prediction of the storm surge and waves and the usual barotropic forecast.
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An integrally coupled tide-surge-wave model using identical and homogeneous meshes in an unstructured grid system was used to correctly resolve the physics of wave-circulation interaction in both models. All model components were validated independently. The storm surge and wave properties such as the surge height, the significant wave height, wave period and direction were reproduced reasonably under the meteorological forcing, which was reprocessed to be close to the observations. 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An integrally coupled tide-surge-wave model using identical and homogeneous meshes in an unstructured grid system was used to correctly resolve the physics of wave-circulation interaction in both models. All model components were validated independently. The storm surge and wave properties such as the surge height, the significant wave height, wave period and direction were reproduced reasonably under the meteorological forcing, which was reprocessed to be close to the observations. The resulting modeling system can be used extensively for the prediction of the storm surge and waves and the usual barotropic forecast.</abstract></addata></record>
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subjects	台风风暴潮有效波高模型组件模拟波流相互作用海浪预报网格系统非结构化
title	Simulation of Storm Surge and Wave Due to Typhoon Isewan （5915）
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