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Xiaoxiao Gou, Huidi Liang, Tinglu Cai, Xinkai Wang, Yining Chen and Xiaoming Xia
Coastal evolutions are expected to have a significant impact on storm tides, disproportionately aggravating coastal flooding. In this study, we utilize a nested storm tide model to provide an integrated investigation of storm tide responses to changes in...
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Li Zhang, Shaoping Shang, Feng Zhang and Yanshuang Xie
Typhoons Soudelor (2015) and Dujuan (2015) were two of the strongest storms to affect the Taiwan Strait in 2015. This study investigated the response of the waters on the western bank of the Taiwan Strait to the passage of Soudelor and Dujuan. This inclu...
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Praneeth Gurumurthy, Philip M. Orton, Stefan A. Talke, Nickitas Georgas and James F. Booth
Wind-induced sea level blowouts, measured as negative storm surge or extreme low water (ELW), produce public safety hazards and impose economic costs (e.g., to shipping). In this paper, we use a regional hydrodynamic numerical model to test the effect of...
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Jianlong Feng, Delei Li, Hui Wang, Qiulin Liu, Jianli Zhang, Yan Li and Kexiu Liu
Using hourly sea level data from four tide gauges, the changes of the extreme sea level in the Bohai Sea were analyzed in this work. Three components (i.e., mean sea level, tide and surge) as well as the tide–surge interaction were studied to find ...
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Wei-Bo Chen, Lee-Yaw Lin, Jiun-Huei Jang and Chih-Hsin Chang
The storm tide is a combination of the astronomical tide and storm surge, which is the actual sea water level leading to flooding in low-lying coastal areas. A full coupled modeling system (Semi-implicit Eulerian-Lagrangian Finite-Element model coupled w...
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