Physical Model Tests on Spar Buoy for Offshore Floating Wind Energy Conversion:Users group H+ - DHI-09-SparBOFWEC
| Autor: | Tomasicchio, Giuseppe Roberto, Vicinanza, Diego, Belloli, Marco, Lugni, Claudio, Latham, John-Paul, Iglesias, Gregorio, Jensen, Bjarne, Vire, Axelle, Monbaliu, Jaak, Taruffi, Federico, Pustina, Luca, Leone, Elisa, Russo, Sara, Francone, Antonio, Fontanella, Alessandro, Di Carlo, Simone, Muggiasca, Sara, Decorte, Griet, Rivera-Arreba, Irene, Ferrante, Vincenzo, Battistella, Tommaso, Garcia, Raul Guanche, Díaz, Abel Martínez, Elsäßer, Björn, Via-Estrem, Lluis, Xiang, Jiansheng, Andersen, Morten Thøtt, Kofoed, Jens Peter, Kramer, Morten Bech |
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| Jazyk: | angličtina |
| Rok vydání: | 2019 |
| Zdroj: | Tomasicchio, G R, Vicinanza, D, Belloli, M, Lugni, C, Latham, J-P, Iglesias, G, Jensen, B, Vire, A, Monbaliu, J, Taruffi, F, Pustina, L, Leone, E, Russo, S, Francone, A, Fontanella, A, Di Carlo, S, Muggiasca, S, Decorte, G, Rivera-Arreba, I, Ferrante, V, Battistella, T, Garcia, R G, Díaz, A M, Elsäßer, B, Via-Estrem, L, Xiang, J, Andersen, M T, Kofoed, J P & Kramer, M B 2019, Physical Model Tests on Spar Buoy for Offshore Floating Wind Energy Conversion : Users group H+-DHI-09-SparBOFWEC . in Proceedings of the HYDRALAB+ Joint User Meeting : Users group H+-DHI-09-SparBOFWEC . Bucharest, pp. 100-109, 6th HYDRALAB + event, Bucharest, Romania, 21/05/2019 . |
| Popis: | The present paper 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. |
| Databáze: | OpenAIRE |
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