Browsing by Author "Fiamma, Vincenzo"
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Item Open Access Operational modal analysis of a spar-type floating platform using frequency domain decomposition method(MDPI, 2016-10-26) Ruzzo, Carlo; Failla, Giuseppe; Collu, Maurizio; Nava, Vincenzo; Fiamma, Vincenzo; Arena, FeliceSystem identification of offshore floating platforms is usually performed by testing small-scale models in wave tanks, where controlled conditions, such as still water for free decay tests, regular and irregular wave loading can be represented. However, this approach may result in constraints on model dimensions, testing time, and costs of the experimental activity. For such reasons, intermediate-scale field modelling of offshore floating structures may become an interesting as well as cost-effective alternative in a near future. Clearly, since the open sea is not a controlled environment, traditional system identification may become challenging and less precise. In this paper, a new approach based on Frequency Domain Decomposition (FDD) method for Operational Modal Analysis is proposed and validated against numerical simulations in ANSYS AQWA v.16.0 on a simple spar-type structure. The results obtained match well with numerical predictions, showing that this new approach, opportunely coupled with more traditional wave tanks techniques, proves to be very promising to perform field-site identification of the model structures.Item Open Access Progress on the experimental set-up for the testing of a floating offshore wind turbine scaled model in a field site(Sage, 2016-07-20) Ruzzo, Carlo; Fiamma, Vincenzo; Nava, Vincenzo; Collu, Maurizio; Failla, Giuseppe; Arena, FeliceThis document describes design and realization of a small-scale field experiment on a 1:30 model of spar floating support structure for offshore wind turbines. The aim of the experiment is to investigate the dynamic behaviour of the floating wind turbine under extreme wave and parked rotor conditions. The experiment has been going on in the Natural Ocean Engineering Laboratory of Reggio Calabria (Italy). In this article, all the stages of the experimental activity are presented, and some results are shown in terms of motions and response amplitude operators. Finally, a comparison with corresponding results obtained using ANSYS AQWA software package is shown, and conclusions are drawn. The presented experimental set-up seems promising to test offshore floating structures for marine renewable energy at a relatively large scale in the Natural Ocean Engineering Laboratory field site.