Published July 5, 2019
| Version v1
Dataset
Open
SparBOFWEC Spar Buoy for Offshore Floating Wind Energy Conversion - Data Storage Report
Creators
- Tomasicchio, Giuseppe Roberto1
- Vicinanza, Diego2
- Belloli, Marco3
- Lugni, Claudio4
- Latham, John-Paul5
- Iglesias Rodriguez, Jose Gregorio6
- Jensen, Bjarne7
- Vire, Axelle8
- Monbaliu, Jaak9
- Taruffi, Federico3
- Pustina, Luca10
- Leone, Elisa1
- Russo, Sara2
- Francone, Antonio11
- Fontanella, Alessandro3
- Di Carlo, Simone3
- Muggiasca, Sara3
- Decorte, Griet9
- Rivera-Arreba, Irene8
- Ferrante, Vincenzo2
- Battistella, Tommaso12
- Guanche Garcia, Raul12
- Martínez Díaz, Abel6
- Elsäßer, Björn7
- Via-Estrem, Lluis5
- Xiang, Jiansheng5
- Andersen, Morten Thøtt13
- Kofoed, Jens Peter13
- Kramer, Morten Bech13
- 1. University of Salento
- 2. University of Campania
- 3. Polytechnic University of Milan
- 4. CNR (National Research Council)
- 5. Imperial College London
- 6. University College Cork
- 7. DHI Water & Environment
- 8. Delft University of Technology
- 9. Catholic University of Leuven
- 10. Roma Tre University
- 11. University of Calabria
- 12. University of Cantabria
- 13. Aalborg University
Description
The present work describes the experiences gained from the design methodology and operation of a 3D physical model experiment aimed to investigate the dynamic behaviour of a spar buoy (SB) off-shore floating wind turbine (WT) under different wind and wave conditions. The physical model tests have been performed at Danish Hydraulic Institute (DHI) off-shore wave basin within the European Union-Hydralab+ Initiative, in April 2019. The floating WT model has been subjected to a combination of regular and irregular wave attacks and wind loads.
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