High-fidelity numerical wave tank verification & validation study: Wave generation through paddle motion

Thanh Toan Tran*, Brek Meuris, Chris Chartrand, Josh Davidson, Jacob Andersen, Claes Eskilsson, Morten Bech Kramer, George Papadakis, Kim Nielsen

*Corresponding author for this work

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

Abstract

This paper presents a numerical benchmark study of wave propagation due to a paddle motion using different high-fidelity numerical models, which are capable of replicating the nearly actual physical wave tank testing. A full time series of the measured wave generation paddle motion that was used to generate wave propagation in the physical wave tank will be utilized in each of the models contributed by the participants of International Energy Agency Ocean Energy Systems Task 10, which includes both computational fluid dynamics and smoothed particle hydrodynamics models. The high-fidelity simulations of the physical wave testcase will allow for the evaluation of the initial transient effects from wave ramp-up and its evolution in the wave tank over time for two representative regular waves with varying levels of nonlinearity. Metrics like the predicted wave surface elevation at select wave probes, wave period, and phase-shift in time will be assessed to evaluate the relative accuracy of numerical models versus experimental data within specified time intervals. These models will serve as a guide for modelers in the wave energy community and provide a base case to allow further and more detailed numerical modeling of the fixed Kramer Sphere Cases under wave excitation force wave tank testing.
Original languageEnglish
Title of host publicationInnovations in Renewable Energies Offshore : Proceedings of the 6th International Conference on Renewable Energies Offshore (RENEW 2024, 19-21 November 2024, Lisbon, Portugal)
Number of pages10
PublisherCRC Press
Publication date2024
Pages227-236
ISBN (Print)9781032905570
ISBN (Electronic)9781003558859
DOIs
Publication statusPublished - 2024
Event6th International Conference on Renewable Energies Offshore (RENEW 2024) - Lisbon, Portugal
Duration: 19 Nov 202421 Nov 2024
Conference number: 6
http://www.centec.tecnico.ulisboa.pt/renew2024/

Conference

Conference6th International Conference on Renewable Energies Offshore (RENEW 2024)
Number6
Country/TerritoryPortugal
CityLisbon
Period19/11/202421/11/2024
Internet address

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