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MS Plan B Defense: Modeling of hurricane waves for design of coastal infrastructure

Zoom Meeting ID______ 853 4276 3602 Passcode: U7H0uX

Giannicola Tumino Di Costanzo Graduate Student Department of Ocean and Resources Engineering University of Hawaiʻi at Mānoa The subtropical Hawaiian Islands are subject to occasional hurricanes that bring the risk of infrastructure damage and financial loss. Determination of hurricane wave conditions in terms of return period is important for coastal infrastructure design and risk management. This study assembles and validates a hurricane wave model and utilizes the model to determine probabilistic design wave conditions for a study site at west Maui. The Delft3D software, which includes a parametric hurricane model and SWAN (Simulating Waves Nearshore), is used to determine significant

MS Plan B Defense: Extreme wave height estimation from a global wave hindcast ensemble

Zoom Meeting ID______ 947 5656 0724 Passcode: ORE

Andi Erickson Graduate Student Department of Ocean and Resources Engineering University of Hawai’i at Mānoa Across the oceans, strong storms generate powerful waves that impact human activities such as commerce and design of coastal and offshore structures. To mitigate damages to these activities and to properly design infrastructures, it is imperative to understand the extreme wave climate. Previous works typically use a single dataset to describe the extreme wave climate. Here we analyze a comprehensive ensemble of 11 wave hindcasts most covering 30 years (1979-2016) to estimate extreme wave conditions at a commonly used return period of 100 years. To

MS Plan A Defense: A fatigue analysis of the No-WEC mooring system at the U.S. Navy Wave Energy Test Site off Oʻahu, Hawaiʻi

Cameron Morrow Graduate Student Department of Ocean and Resources Engineering University of Hawai'i In order to reduce carbon emissions, there is a pressing need to look for alternative fuel sources. Energy created by renewable sources is the way of the future. One of the emerging renewable energy technologies is wave energy. The theoretical gross power generated from waves is 3.7 TW, but the estimated total net power is 3 TW. The Wave Energy Test Site (WETS), off the coast of Marine Corps Base Hawaiʻi, provides a unique location for the full-scale validation of Wave Energy Conversion (WEC) devices in the