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January 1, 2000 - The Wave Energy Technology New Zealand (WET-NZ) is an innovative “multi-mode” device that interacts with the heave, surge and pitch components of the wave to maximize the amount of energy captured. (Photo Courtesy of Justin Klure /

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May 16, 2013 - Testing in Oregon, the WET-NZ is an innovative wave energy converter that interacts with all components of the wave to maximize energy capture. (Photo Courtesy of Justin Klure / Northwest Energy Innovations).

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April 15, 2011 - Ocean Power Technologies of Pennington's new 150 kW PowerBuoy system captures the kinetic energy of waves to drive a generator that produces electricity. (Photo from Ocean Power Technologies)

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November 29, 2010 - 1/100 scale floating-point absorber model in a Experimental wave tank test at UC Berkeley. (Photo by Ye Li / NREL)

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August 3, 2011 - A snap shot of floating point absorber wave tank test. (Photo by Yi-Hsiang Yui / NREL)

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August 3, 2011 - Floating point absorber wave tank test settings: linear potentiometer (Photo by Yi-Hsiang Yui / NREL)

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August 3, 2011 - Floating point absorber wave tank test settings: Load cell. (Photo by Yi-Hsiang Yui / NREL)

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December 6, 2010 - Floating point absorber wave tank test settings: Motion tracking camera system. (Photo by Yi-Hsiang Yui / NREL)

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December 6, 2010 - Experimental wave tank test at UC. Berkeley. (Photo by Ye Li / NREL)

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December 6, 2010-Experimental wave tank test at UC Berkeley. (Photo by Ye Li / NREL)

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Columbine Power deployed an intermediate-scale prototype point absorber, code named SeaRay near Seattle, Washington to conduct sea trials.

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The OE Buoy is designed around the oscillating water column principle. Its turbine captures the energy of the wave and the generator converts this energy to electrical power. A full-scale commercial prototype will have a capacity rating of 1.75 MW.

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The OE Buoy is designed around the oscillating water column principle. Its turbine captures the energy of the wave and the generator converts this energy to electrical power. A full-scale commercial prototype will have a capacity rating of 1.75 MW.

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Oceanlinx has developed a renewable energy technology that extracts energy from the ocean waves and converts it into electrical energy.

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Ocean Sentinel instrumentation buoy of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, Newport, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Ocean Sentinel instrumentation buoy of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, Newport, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, Newport, Oregon. (Photo by Frederick Driscoll / NREL)

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January 1, 2012 - Energy Substation for in-stream tidal energy systems, Fundy Ocean Research Center for Energy (FORCE), Bay of Fundy, Nova Scotia, Canada. (Photo by Frederick Driscoll / NREL)

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January 1, 2012 - Energy Substation for in-stream tidal energy systems, Fundy Ocean Research Center for Energy (FORCE), Bay of Fundy, Nova Scotia, Canada. (Photo by Frederick Driscoll / NREL)

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January 1, 2012 - Energy Substation for in-stream tidal energy systems, Fundy Ocean Research Center for Energy (FORCE), Bay of Fundy, Nova Scotia, Canada. (Photo by Frederick Driscoll / NREL)

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January 1, 2012 - Energy Substation for in-stream tidal energy systems, Fundy Ocean Research Center for Energy (FORCE), Bay of Fundy, Nova Scotia, Canada. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Ocean Sentinel instrumentation buoy of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, Newport, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Ocean Sentinel instrumentation buoy of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, Newport, Oregon. (Photo by Frederick Driscoll / NREL)

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August 1, 2012 - Wet-NZ Wave Energy System of the Northwest National Marine Renewable Energy Center (NNMREC), OSU, being prepared for deployment, Toledo, Oregon. (Photo by Frederick Driscoll / NREL)

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November 21, 2012 - In October - December, 2012 Columbia Power Technologies, Inc. successfully demonstrated a 33red scale model of its v3.2 design wave energy converter's performance, single point mooring and extreme wave survival strategies. (Columbia Po

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November 14, 2012 - In October - December, 2012 Columbia Power Technologies, Inc. successfully demonstrated a 33red scale model of its v3.2 design wave energy converter's performance, single point mooring and extreme wave survival strategies. (Columbia Po

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November 14, 2012 - In October - December, 2012 Columbia Power Technologies, Inc. successfully demonstrated a 33red scale model of its v3.2 design wave energy converter's performance, single point mooring and extreme wave survival strategies. (Columbia Po

 
 
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