In this paper, an experimental investigation of the global response to waves relative to a newly developed float-over concept by TechnipFMC Rome Operating Center for transportation, installation and decommissioning of the off-shore platform topside is presented. A flexible scaled model of the float-over system was tested in the wave basin to determine the range of the sea-state conditions for which the response of the catamaran float-over is acceptable for mating operations. The present analysis is part of a more extensive experimental campaign which has involved also the use of a scaled rigid physical model (Dessi et al., 2016) and numerical simulations for which the collected data provide also a validation database.
Experimental analysis of the station keeping response of a double-barge float-over system with an elastically scaled physical model / Dessi, D.; Faiella, E.; Saltari, F.; Pigna, C.; Celli, C.; Miliante, T.; Di Paolo, E.. - (2017), pp. 1175-1182. (Intervento presentato al convegno 27th International ocean and polar engineering conference, ISOPE 2017 tenutosi a San Francisco, USA).
Experimental analysis of the station keeping response of a double-barge float-over system with an elastically scaled physical model
Dessi D.
Primo
;Saltari F.;
2017
Abstract
In this paper, an experimental investigation of the global response to waves relative to a newly developed float-over concept by TechnipFMC Rome Operating Center for transportation, installation and decommissioning of the off-shore platform topside is presented. A flexible scaled model of the float-over system was tested in the wave basin to determine the range of the sea-state conditions for which the response of the catamaran float-over is acceptable for mating operations. The present analysis is part of a more extensive experimental campaign which has involved also the use of a scaled rigid physical model (Dessi et al., 2016) and numerical simulations for which the collected data provide also a validation database.| File | Dimensione | Formato | |
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