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Power from the waves

Power from the waves. Global ocean wave energy resource (annual averages in kW/m width of wave). Generator. Oscillating air flow. Flotation chamber. Masuda buoy. Japanese wave-powered navigation buoy, first introduced in 1960’s. Overall diameter 3m. Air turbine and 60W

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Power from the waves

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  1. Power from the waves

  2. Global ocean wave energy resource(annual averages in kW/m width of wave)

  3. Generator Oscillating air flow Flotation chamber Masuda buoy Japanese wave-powered navigation buoy, first introduced in 1960’s. Overall diameter 3m. Air turbine and 60W generator, powered by oscillating water column. Output stored in lead-acid batteries.

  4. Norwegian OWC schematic Generator Wells turbine Circular splash guard with annular space for air flow to turbine OWC chamber

  5. Norwegian OWC 500 kW prototype device on shoreline near Stavanger. Concrete OWC chamber topped by steel tubular tower. Single-rotor Wells turbine. Constructed in 1985, destroyed by storm in 1988

  6. Prototype oscillating water column device, Portnahaven, Islay. Wells turbine and generator rated at 75 kW. Constructed in 1985, de-commissioned in 1999

  7. Islay prototype OWC schematic Generator OWC chamber Wells turbine

  8. 500 kW rated, shoreline mounted oscillating water column device near Portnahaven, Islay

  9. Aerial view of tapered channel wave power plant Sea Tapered channel Reservoir Turbine house (250 kW)

  10. Wave Dragon A Danish design: the arms amplify the incoming waves which spill over into a central chamber. Power take-off uses simple low-head hydro power technology An artist’s impression of the device. At full scale, it would be 260 m wide and would develop up to 4 MW

  11. A 1/4.5 scale prototype Wave Dragon during sea trials off the Danish coast, 2003

  12. Cockerell raft wave energy converter Funded under UK wave energy programme in the 1980s Segmented raft flexes under wave action. Power take-off using high-pressure hydraulics. 1/10-scale prototype tested in the English channel

  13. Salter’s Duck Funded under UK wave energy programme in the 1980s. Schematic view of cross-section Angular motion between duck and spine actuates hydraulic pumps for power take-off

  14. Testing of ducks at about 1/10 scale in Loch Ness, late 1980s. Each duck is free to take up its own angular position relative to the common spine

  15. 1/7 scale Pelamis in sea trials in the Firth of Forth near Edinburgh, 2001

  16. Pelamis power conversion module Hydraulic ram High pressure accumulator Hydraulic motor and generator Fluid reservoir Hinged joint

  17. Pelamis 750 kW prototype in transit to Orkney test centre

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