A floating wave energy converter (WEC) is composed by several parts, the most important being the floating body, the power take off, the mooring and the electrical systems. Several recent projects and scientific works focused on the simultaneous and integrated study on the behavior of the whole WEC, i.e. of all its main components. This is sometime called wave-to-wire method, similarly to studies on wind turbines. This work describes about the wave-to-wire modeling for the developing of air turbine and power electronics of a new multi-chamber oscillating wave column WEC.
A wave-2-wire experimental investigation of the new “Seabreath” wave energy converter: the hydraulic response / L., Martinelli; P., Ruol; E., Fassina; Giuliani, Francesco; Delmonte, Nicola. - ELETTRONICO. - 34:(2014), pp. 1-10. (Intervento presentato al convegno 34th International Conference on Coastal Engineering (ICCE2014) tenutosi a Seoul, Corea nel 15-20 giugno 2014) [10.9753/icce.v34.structures.29].
A wave-2-wire experimental investigation of the new “Seabreath” wave energy converter: the hydraulic response
GIULIANI, Francesco;DELMONTE, Nicola
2014-01-01
Abstract
A floating wave energy converter (WEC) is composed by several parts, the most important being the floating body, the power take off, the mooring and the electrical systems. Several recent projects and scientific works focused on the simultaneous and integrated study on the behavior of the whole WEC, i.e. of all its main components. This is sometime called wave-to-wire method, similarly to studies on wind turbines. This work describes about the wave-to-wire modeling for the developing of air turbine and power electronics of a new multi-chamber oscillating wave column WEC.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
