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Efficiency and survivability of a floating oscillating water column wave energy converter moored to the seabed: an overview of the EsflOWC MaRINET2 database
Kisacik, D.; Stratigaki, V.; Wu, M.; Cappietti, L.; Simonetti, I.; Troch, P.; Crespo, A.; Altomare, C.; Dominguez, J.; Hall, M.; Gomez-Gesteira, M.; Canelas, R.B.; Stansby, P. (2020). Efficiency and survivability of a floating oscillating water column wave energy converter moored to the seabed: an overview of the EsflOWC MaRINET2 database. Water 12(4): 992. https://hdl.handle.net/10.3390/w12040992
In: Water. MDPI: Basel. e-ISSN 2073-4441, more
Peer reviewed article  

Available in  Authors 

Keyword
    Marine/Coastal
Author keywords
    floating wave energy converter; oscillating water column (OWC); wave flume experiment; mooring dynamics; MaRINET2 EsflOWC

Authors  Top 
  • Kisacik, D., more
  • Stratigaki, V., more
  • Wu, M., more
  • Cappietti, L.
  • Simonetti, I.
  • Troch, P., more
  • Crespo, A.
  • Altomare, C., more
  • Dominguez, J.
  • Hall, M.
  • Gomez-Gesteira, M.
  • Canelas, R.B.
  • Stansby, P.

Abstract
    Floating oscillating water column (OWC) type wave energy converters (WECs), compared to fixed OWC WECs that are installed near the coastline, can be more effective as they are subject to offshore waves before the occurrence of wave dissipation at a nearshore location. The performance of floating OWC WECs has been widely studied using both numerical and experimental methods. However, due to the complexity of fluid structure interaction of floating OWC WECs, most of the available studies focus on 2D problems with WEC models of limited degrees -of-freedom (DOF) of motion, while 3D mooring effects and multiple-DOF OWC WECs have not been extensively investigated yet under 2D and 3D wave conditions. Therefore, in order to gain a deeper insight into these problems, the present study focuses on wave flume experiments to investigate the motion and mooring performance of a scaled floating OWC WEC model under 2D wave conditions. As a preparatory phase for the present MaRINET2 EsflOWC (efficiency and survivability of floating OWC) project completed at the end of 2017, experiments were also carried out in advance in the large wave flume of Ghent University. The following data were obtained during these experimental campaigns: multiple-DOF OWC WEC motions, mooring line tensions, free surface elevations throughout the wave flume, close to and inside the OWC WEC, change in the air pressure inside the OWC WEC chamber and velocity of the airflow through the vent on top of the model. The tested wave conditions mostly include nonlinear intermediate regular waves. The data obtained at the wave flume of Ghent University, together with the data from the EsflOWC tests at the wave flume of LABIMA, University of Florence, provide a database for numerical validation of research on floating OWC WECs and floating OWC WEC farms or arrays used by researchers worldwide.

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