Search results
Results from the WOW.Com Content Network
Agucadoura Wave Farm in Portugal. The following page lists most power stations that run on wave power, however there are not many operational at present as wave energy is still a nascent technology. A longer list of proposed and prototype wave power devices is given on List of wave power projects.
The Cycloidal Wave Energy Converter is a wave energy concept being developed by Atargis Energy Corporation in Colorado. The patents were filed in 2005, and the company was founded in 2010, after initial research showed potential. [67] It is a fully submerged wave termination device, located offshore, with a direct drive generator.
Talen announced on October 23, 2015, that the C.P. Crane plant would be sold in early 2016 to an affiliate of Avenue Capital Group as one of its divestitures to fulfill the FERC order. [7] The sale was completed on February 16, 2016, [8] at which time the plant began operating as C.P. Crane, LLC.
The potential energy density is equal to the kinetic energy, [1] both contributing half to the wave energy density E, as can be expected from the equipartition theorem. The waves propagate on the surface, where crests travel with the phase velocity while the energy is transported horizontally with the group velocity .
As waves can only reach a certain curvature before naturally breaking, this limits the range of motion through which the machine must move but maintains large motion at the joints in small waves. The Pelamis machine was an offshore wave energy converter, operating in water depths greater than 50m. [ 4 ]
The rise and fall of passing waves drives the pumps, generating water pressures of up to 1,000 pounds per square inch (psi). Carnegie's first commercial wave farm is due to be completed on Garden Island, near Perth, Western Australia, by mid 2014. Wave Swell Energy [6] installed a trial wave generator unit in the harbour at Grassy, King Island.
In offshore construction, the splash zone is the transition from air to water when lowering heavy burdens into the sea. The overall efforts applied on the crane change dramatically when the load starts touching water, up to the point where it is completely submerged.
Active heave compensation (AHC) is a technique used on lifting equipment to reduce the influence of waves upon offshore operations. AHC differs from Passive Heave Compensation by having a control system that actively tries to compensate for any movement at a specific point, using power to gain accuracy.