Abstract: A wave-actuated system for desalination of water by reverse osmosis (RO) has at least one offshore wave energy converter subsystem for pumping salt water and supplying the pumped salt water via a water outlet, a pretreatment subsystem hydraulically connected to the water outlet of the at least one offshore wave energy converter subsystem, and a RO desalination subsystem receiving filtered water from the pretreatment subsystem. The at least one wave-energy converter has a float and a hydraulic cylinder pumping salt water to the RO desalination subsystem. A method for operating a reverse-osmosis desalination subsystem using pressurized salt water supplied by at least one wave energy converter subsystem is described. A method for making a hull is also described.
Abstract: A wave-actuated system for desalination of water by reverse osmosis (RO) having a wave energy converter (WEC) subsystem and a RO desalination subsystem is disclosed. The WEC subsystem has a float, a reaction member, and a hydraulic cylinder connected between the float and the reaction member and defining first and second variable volume chambers The RO desalination subsystem has a RO cell containing a RO membrane and a flow smoothing device (FSD). During a first stroke of the WEC subsystem: the float moves in a first direction; and seawater is supplied from the first variable volume chamber to the RO cell and to the FSD. During a second stroke of the WEC subsystem: the float moves in a second direction; seawater is supplied from a seawater intake to the first variable volume chamber; and seawater is supplied from the FSD to the RO cell.