Role of physical modeling in developing a new cruise ship terminal at an exposed site

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TypeArticle
Proceedings titlePIANC Congress 2014 Papers: CoCom Sedimentation/Systems Approach to Operational Management/Coastal Engineering and Maritime Applications
Conference33rd PIANC World Congress, June 1-5, 2014, San Francisco, California
AbstractThis paper describes the role of physical modelling in the design and development of a new cruise ship terminal at an exposed site on the coast of Barbados, outside the Port of Bridgetown. Large scale 3D hydraulic model studies were conducted to focus on two of the key technical challenges surrounding the project: the risk of downtime due to excessive ship motions forced by the prevailing winds, seas and swells; and the extreme wave loads and overtopping associated with waves generated by large storms. The physical modelling was separated into two phases. The first phase investigated the moored ship response of two different model cruise ship vessels under a range of operational wind and wave conditions. The results of this phase helped determine the range of conditions where the motions of the ships and the associated loads on the portside elements were within acceptable limits, and showed that the expected downtime for the design vessels was satisfactory. The second phase of the study focused on wave-structure interactions, and in particular the impact of extreme waves on the proposed structures, including wave-induced loads on the pier decks, and the wave overtopping and flooding of the landside development. Several innovative measures were developed and tested to accommodate / mitigate the loads on the pier decks as well as reduce the wave overtopping. These physical model studies played a key role in the front end engineering design of the new port, and their results were crucial in assessing various alternatives, optimizing preliminary designs, and validating the layout, costing and construction of the new facility.
Publication date
LanguageEnglish
AffiliationOcean, Coastal and River Engineering; National Research Council Canada
Peer reviewedNo
NRC numberOCRE-PR-2014-012
NPARC number21277592
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Record identifier17e9b23e-7ee3-4d19-9c50-dff175fbfc44
Record created2016-04-26
Record modified2016-05-09
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