OC6 project Phase IV: validation of numerical models for novel floating offshore wind support structures
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Published:2024-04-29
Issue:4
Volume:9
Page:1025-1051
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ISSN:2366-7451
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Container-title:Wind Energy Science
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language:en
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Short-container-title:Wind Energ. Sci.
Author:
Bergua RogerORCID, Wiley Will, Robertson AmyORCID, Jonkman JasonORCID, Brun Cédric, Pineau Jean-PhilippeORCID, Qian Quan, Maoshi Wen, Beardsell Alec, Cutler Joshua, Pierella Fabio, Hansen Christian AnkerORCID, Shi WeiORCID, Fu Jie, Hu Lehan, Vlachogiannis Prokopios, Peyrard Christophe, Wright Christopher Simon, Friel Dallán, Hanssen-Bauer Øyvind Waage, dos Santos Carlos RenanORCID, Frickel Eelco, Islam HafizulORCID, Koop Arjen, Hu Zhiqiang, Yang Jihuai, Quideau Tristan, Harnois Violette, Shaler KelseyORCID, Netzband Stefan, Alarcón Daniel, Trubat PauORCID, Connolly Aengus, Leen Seán B., Conway Oisín
Abstract
Abstract. This paper provides a summary of the work done within Phase IV of the Offshore Code Comparison Collaboration, Continued with Correlation and unCertainty (OC6) project, under International Energy Agency Wind Technology Collaboration Programme Task 30. This phase focused on validating the loading on and motion of a novel floating offshore wind system. Numerical models of a 3.6 MW horizontal-axis wind turbine atop the TetraSpar floating support structure were compared using measurement data from a 1:43-Froude-scale test performed in the University of Maine's Alfond Wind–Wave (W2) Ocean Engineering Laboratory. Participants in the project ran a series of simulations, including system equilibrium, surge offsets, free-decay tests, wind-only conditions, wave-only conditions, and a combination of wind and wave conditions. Validation of the models was performed by comparing the aerodynamic loading, floating support structure motion, tower base loading, mooring line tensions, and keel line tensions. The results show a relatively good estimation of the aerodynamic loading and a reasonable estimation of the platform motion and tower base fore–aft bending moment. However, there is a significant dispersion in the dynamic loading for the upwind mooring line. Very good agreement was observed between most of the numerical models and the experiment for the keel line tensions.
Funder
Office of Energy Efficiency and Renewable Energy
Publisher
Copernicus GmbH
Reference33 articles.
1. Allen, C. and Fowler, M.: 1/43rd Scale Basin Testing of the 3.6 MW TetraSpar Floating Offshore Wind Turbine – Spar Configuration. Advanced Structures and Composites Center, Report No. 19-25-1720, University of Maine, 2019. 2. Babarit, A. and Delhommeau, G.: Theoretical and numerical aspects of the open source BEM solver NEMOH, in: 11th European Wave and Tidal Energy Conference (EWTEC2015), 6–11 September 2015, Nantes, France, 2015. 3. Bergua, R., Robertson, A., Jonkman, J., Platt, A., Page, A., Qvist, J., Amet, E., Cai, Z., Han, H., Beardsell, A., Shi, W., Galván, J., Bachynski-Polić, E., McKinnon, G., Harnois, V., Bonnet, P., Suja-Thauvin, L., Hansen, A. M., Mendikoa-Alonso, I., Aristondo, A., Battistella, T., Guanche, R., Schünemann, P., Pham, T., Trubat, P., Alarcón, D., Haudin, F., and Quan-Nguyen, M., Goveas, A.: OC6 Phase II: Integration and verification of a new soil–structure interaction model for offshore wind design, Wind Energy, 25, 793–810, https://doi.org/10.1002/we.2698, 2022. 4. Bergua, R., Robertson, A., Jonkman, J., Branlard, E., Fontanella, A., Belloli, M., Schito, P., Zasso, A., Persico, G., Sanvito, A., Amet, E., Brun, C., Campaña-Alonso, G., Martín-San-Román, R., Cai, R., Cai, J., Qian, Q., Maoshi, W., Beardsell, A., Pirrung, G., Ramos-García, N., Shi, W., Fu, J., Corniglion, R., Lovera, A., Galván, J., Nygaard, T. A., dos Santos, C. R., Gilbert, P., Joulin, P.-A., Blondel, F., Frickel, E., Chen, P., Hu, Z., Boisard, R., Yilmazlar, K., Croce, A., Harnois, V., Zhang, L., Li, Y., Aristondo, A., Mendikoa Alonso, I., Mancini, S., Boorsma, K., Savenije, F., Marten, D., Soto-Valle, R., Schulz, C. W., Netzband, S., Bianchini, A., Papi, F., Cioni, S., Trubat, P., Alarcon, D., Molins, C., Cormier, M., Brüker, K., Lutz, T., Xiao, Q., Deng, Z., Haudin, F., and Goveas, A.: OC6 project Phase III: validation of the aerodynamic loading on a wind turbine rotor undergoing large motion caused by a floating support structure, Wind Energ. Sci., 8, 465–485, https://doi.org/10.5194/wes-8-465-2023, 2023. 5. Borg, M., Viselli, A., Allen, C. K., Fowler, M., Sigshøj, C., Grech La Rosa, A., Andersen, M. T., and Stiesdal, H.: Physical Model Testing of the TetraSpar Demo Floating Wind Turbine Prototype. In International Conference on Offshore Mechanics and Arctic Engineering, American Society of Mechanical Engineers, https://doi.org/10.1115/IOWTC2019-7561, 2019.
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