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Kees Nederhoff, Sean C. Crosby, Nate R. Van Arendonk, Eric E. Grossman, Babak Tehranirad, Tim Leijnse, Wouter Klessens and Patrick L. Barnard
The Puget Sound Coastal Storm Modeling System (PS-CoSMoS) is a tool designed to dynamically downscale future climate scenarios (i.e., projected changes in wind and pressure fields and temperature) to compute regional water levels, waves, and compound flo...
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Abram Musinguzi and Muhammad K. Akbar
Hurricane storm surges are influenced by several factors, including wind intensity, surface pressure, forward speed, size, angle of approach, ocean bottom depth and slope, shape and geographical features of the coastline. The relative influence of each f...
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Joseph Kim, Enda Murphy, Ioan Nistor, Sean Ferguson and Mitchel Provan
A numerical study was conducted to characterize the probability and intensity of storm surge hazards in Canada?s western Arctic. The utility of the European Centre for Medium-Range Weather Forecasts Reanalysis 5th Generation (ERA5) dataset to force numer...
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Sooyoul Kim, Hajime Mase, Nguyen Ba Thuy, Masahide Takeda, Cao Truong Tran and Vu Hai Dang
The current study developed storm surge hindcast/forecast models with lead times of 5, 12, and 24 h at the Sakaiminato port, Tottori, Japan, using the group method of data handling (GMDH) algorithm. For training, local meteorological and hydrodynamic dat...
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Sven Smolders, Maria João Teles, Agnès Leroy, Tatiana Maximova, Patrick Meire and Stijn Temmerman
There is increasing interest in the use of nature-based approaches for mitigation of storm surges along coasts, deltas, and estuaries. However, very few studies have quantified the effectiveness of storm surge height reduction by a real-existing, estuari...
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Chang Liu, Yan Jia, Yaprak Onat, Alejandro Cifuentes-Lorenzen, Amin Ilia, Grant McCardell, Todd Fake and James O?Donnell
Accurately estimating the probability of storm surge occurrences is necessary for flood risk assessments. This research models Long Island Sound using a coupled coastal circulation and wave model (FVCOM-SWAVE) to hindcast the 44 highest storms between 19...
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Abram Musinguzi, Muhammad K. Akbar, Jason G. Fleming and Samuel K. Hargrove
Meteorological forcing is the primary driving force and primary source of errors for storm surge forecasting. The objective of this study was to learn how forecasted meteorological forcing influences storm surge generation and propagation during a hurric...
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Xiaoxuan Li, Anthony R. Cummings, Ali Rashed Alruzuq, Corene J. Matyas and Amobichukwu Chukwudi Amanambu
Tropical cyclones are incredibly destructive and deadly, inflicting immense losses to coastal properties and infrastructure. Hurricane-induced coastal floods are often the biggest threat to life and the coastal environment. A quick and accurate estimatio...
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Abdullah Alghamdi and Muhammad K. Akbar
The current state of science does not offer any remedy to stop a hurricane from occurring. Therefore, accurate storm surge models capable of predicting water velocity and elevation are indispensable. In this paper, the implementation of an implicit solve...
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Alexandra N. Ramos Valle, Enrique N. Curchitser, Cindy L. Bruyere and Kathryn R. Fossell
Storm surge events have the potential to cause devastating damage to coastal communities. The magnitude of their impacts highlights the need for increased accuracy and real-time forecasting and predictability of storm surge. In this study, we assess two ...
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