SparBOFWEC Spar Buoy for Offshore Floating Wind Energy Conversion - Data Storage Report

  • Giuseppe Roberto Tomasicchio (Bidrager)
  • Diego Vicinanza (Bidrager)
  • Marco Belloli (Bidrager)
  • Claudio Lugni (Bidrager)
  • John-Paul Latham (Bidrager)
  • Bjarne Jensen (Bidrager)
  • Axelle Vire (Bidrager)
  • Jaak Monbaliu (Bidrager)
  • Federico Taruffi (Bidrager)
  • Luca Pustina (Bidrager)
  • Elisa Leone (Bidrager)
  • Sara Russo (Bidrager)
  • Antonio Francone (Bidrager)
  • Alessandro Fontanella (Bidrager)
  • Simone Di Carlo (Bidrager)
  • Sara Muggiasca (Bidrager)
  • Griet Decorte (Bidrager)
  • Irene Rivera-Arreba (Bidrager)
  • Vincenzo Ferrante (Bidrager)
  • Tommaso Battistella (Bidrager)
  • Björn Elsäßer (Bidrager)
  • Lluis Via-Estrem (Bidrager)
  • Jiansheng Xiang (Bidrager)
  • Morten Thøtt Andersen (Bidrager)
  • Jens Peter Kofoed (Bidrager)

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Beskrivelse

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.
Dato for tilgængelighed2019
ForlagZenodo

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