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G. Diana, F. Resta, A. Zasso, M. Belloli, D. Rocchi (2004)
Forced motion and free motion aeroelastic tests on a new concept dynamometric section model of the Messina suspension bridgeJournal of Wind Engineering and Industrial Aerodynamics, 92
G. Diana, F. Resta, M. Belloli, D. Rocchi (2006)
On the vortex shedding forcing on suspension bridge deckJournal of Wind Engineering and Industrial Aerodynamics, 94
(2006)
Wind turbines - Design requirements for offshore wind turbines
(2007)
Sclavounos, “Engineering Challenges for Floating Offshore Wind Turbines
E. Wayman, P. Sclavounos, S. Butterfield, J. Jonkman, W. Musial (2006)
Coupled Dynamic Modeling of Floating Wind Turbine Systems
S. Butterfield, W. Musial, J. Jonkman, P. Sclavounos (2007)
Engineering Challenges for Floating Offshore Wind Turbines
J. Jonkman, M. Buhl (2007)
Loads Analysis of a Floating Offshore Wind Turbine Using Fully Coupled Simulation: Preprint
(2006)
Sclavounos, “Coupled Dynamic Modeling of Floating Wind Turbine Systems
J. Jonkman (2007)
Dynamics Modeling and Loads Analysis of an Offshore Floating Wind Turbine
D. Roddier, C. Cermelli, Alexia Aubault, A. Weinstein (2010)
WindFloat: A floating foundation for offshore wind turbinesJournal of Renewable and Sustainable Energy, 2
L. Chamorro, F. Porté-Agel (2009)
A Wind-Tunnel Investigation of Wind-Turbine Wakes: Boundary-Layer Turbulence EffectsBoundary-Layer Meteorology, 132
F. Nielsen, T. Hanson, B. Skaare (2006)
Integrated Dynamic Analysis of Floating Offshore Wind Turbines
J. Jonkman, S. Butterfield, W. Musial, G. Scott (2009)
Definition of a 5-MW Reference Wind Turbine for Offshore System Development
Jingping Xiao, Jie Wu, Li Chen, Zheyu Shi (2011)
Particle image velocimetry (PIV) measurements of tip vortex wake structure of wind turbineApplied Mathematics and Mechanics, 32
E. Marino, C. Borri, C. Lugni (2011)
Influence of wind–waves energy transfer on the impulsive hydrodynamic loads acting on offshore wind turbinesJournal of Wind Engineering and Industrial Aerodynamics, 99
J. Jonkman (2010)
Definition of the Floating System for Phase IV of OC3
D. Matha (2010)
Model Development and Loads Analysis of an Offshore Wind Turbine on a Tension Leg Platform with a Comparison to Other Floating Turbine Concepts: April 2009
This paper describes the realization of a 2-DoF experimental rig, performed at Politecnico di Milano Wind Tunnel, aimed at simulating the motion of a floating wind turbine scale model, due to combined effect of hydrodynamic and aerodynamic loads. As floating offshore wind farms are becoming objects of interest among the international scientific community, experimental tests have been increasingly demanded to support dynamic and structural numerical simulations. Furthermore measurements on real prototypes are very complex and expensive and it is difficult to use these data to validate prediction models because of the uncertainties in the definition of the environmental data, such as sea state and incoming wind. The motivation of this project is to provide an experimental set-up working in a fully controlled test environment (with measurable input/output) in order to validate numerical codes. The paper describes the features of the experimental rig, the results coming from the validation tests on the rig, through a dedicated “off-line” experimental campaign and, conclusively, a proposal for a “Hardware-In-The-Loop” real time functioning mode.
Wind Engineering – SAGE
Published: Dec 1, 2013
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