Lecture 35 November 20 ECEN2060 Frank Barnes. Home works Home work, Wednesday Nov. 20th 7.1, 7.2,...
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Lecture 35 November 20 ECEN2060 Frank Barnes. Home works Home work, Wednesday Nov. 20th 7.1, 7.2, 7.3, 7.4, 7.5 Home work for Monday Dec 2, 2013 7.7,7.10,7.11,
Home works Home work, Wednesday Nov. 20th 7.1, 7.2, 7.3, 7.4,
7.5 Home work for Monday Dec 2, 2013 7.7,7.10,7.11, 7.12, 7.13 Also
plan on getting started on your term paper. Home work for chapter 8
Friday Dec 6, 8.1,8.5.8.6, 8.8, 8.10,8.11
Slide 3
Energy In a Wave The power in a sine wave with Height H and
period T P= For H =3m and T=8sec P= 70.5kW/m Note the density of
water is 1,025kg/m 3
Slide 4
Systems for Extracting Energy from Waves
Slide 5
Variations Wave Shapes and Heights
Slide 6
Distributions of Wave Heights and Periods.
Slide 7
Wave Power Available in kWh/m/yr Near San Francisco
Slide 8
Wave Energy Estimates
Slide 9
Variations in Wave Power with Time of Year
Slide 10
Wave Power Results for a 1MW Generator in kW
Slide 11
Annual Energy MWh/yr for Site Near San Francisco
Slide 12
Wind and Wave Generators Colocated off Shore
Slide 13
Two Tidal Generators.
Slide 14
Tides and Position of the Moon
Slide 15
Variations with Time of Year
Slide 16
Variation of Tides
Slide 17
Velocity of Tidal Currents and Available Power ~ v 3
Slide 18
Common Mixed Tidal Currents Over a Day
Slide 19
Cut In and Rated Speed
Slide 20
Surface Tidal Speed Probability Distribution Tacoma
Narrows
Slide 21
Estimated Energy Delivered For a Turbine Rated at 600kW