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Energy, Power, and Climate Change 8.8 Wave Power W AVES  Common water waves are produced by the sun-driven winds passing over the water's surface. 

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Presentation on theme: "Energy, Power, and Climate Change 8.8 Wave Power W AVES  Common water waves are produced by the sun-driven winds passing over the water's surface. "— Presentation transcript:

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2 Energy, Power, and Climate Change 8.8 Wave Power W AVES  Common water waves are produced by the sun-driven winds passing over the water's surface.  The height of the waves depends on the following three factors:  The speed of the wind  The duration of the wind  The fetch

3 Energy, Power, and Climate Change 8.8 Wave Power F ETCH FYI: The FETCH is the length of the water over which the wind passes. FYI: A NNE wind on Lake Michigan produces a much larger amplitude... than a west wind. FYI: The course of the Edmund Fitzgerald on Lake Superior.

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5 L Energy, Power, and Climate Change 8.8 Wave Power P OWER IN A W ATER W AVE  The power of a water wave is complicated to calculate, so we'll simplify it some.  Think of the crest as storage of potential energy, and the falling water as conversion into kinetic energy. A

6 L Energy, Power, and Climate Change 8.8 Wave Power P OWER IN A W ATER W AVE U = mgh U = mgA/2 A U =  VgA/2 A/2 FYI: The AVERAGE HEIGHT of the water is A / 2. U =  LAgA/2 U =  LgA 2 /2 FYI: This much potential energy is converted into kinetic energy each period T. = VT K =  LgA 2 /2 K =  VTLgA 2 /2 FYI: Power is energy per time: P =  gVLA 2 2 Power Generated By A Wave FYI: Power is proportional to the SQUARE of the AMPLITUDE A. Power is proportional to the WAVE SPEED V. Power is porportional to the LENGTH of the WAVEFRONT L.

7 Energy, Power, and Climate Change 8.8 Wave Power P OWER IN A W ATER W AVE Waves having an amplitude of 2 m roll onto a beach at a rate of one every 8 seconds. The wave crests are 75 meters apart. (a) What is the wave velocity? V = d/t = /T = 75/8 = 9.75 m/s (b) How much wave power is there, per unit length? P =  gVLA 2 2 P / L =  gVA 2 2 = (1000)(10)(9.75)2 2 2 = 195 kW/m (c) How much wave power is there along 25 km of beach? FYI: The mass density of water is 1000 kg/m 3. P = (195 kW/m)L P = (195 kW/m)(25000 m) P = 4875 MW

8 Energy, Power, and Climate Change 8.8 Wave Power P OWER G ENERATION FROM A W ATER W AVE THE OSCILLATING WATER COLUMN Air Column - Compressed and rarefied by rising and falling wave. Wind Turbine Generator Turbine generates both ways

9 Energy, Power, and Climate Change 8.8 Wave Power P OWER G ENERATION FROM A W ATER W AVE THE PELAMIS  The pelamis is named after the sea snake for obvious reasons.  Each of four sections is hinged to the previous one.  Fluid inside moves back and forth.  The moving fluid drives a generator. FYI: A pelamis can generate 750 kW of power.

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