1. Lecture 35 November 20 ECEN2060 Frank Barnes

2. 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

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 ρ 1,025kg/m 3

4. Systems for Extracting Energy from Waves

5. Variations Wave Shapes and Heights

6. Distributions of Wave Heights and Periods.

7. Wave Power Available in kWh/m/yr Near San Francisco

8. Wave Energy Estimates

9. Variations in Wave Power with Time of Year

10. Wave Power Results for a 1MW Generator in kW

11. Annual Energy MWh/yr for Site Near San Francisco

12. Wind and Wave Generators Colocated off Shore

13. Two Tidal Generators.

14. Tides and Position of the Moon

15. Variations with Time of Year

16. Variation of Tides

17. Velocity of Tidal Currents and Available Power ~ v 3

18. Common Mixed Tidal Currents Over a Day

19. Cut In and Rated Speed

20. Surface Tidal Speed Probability Distribution Tacoma Narrows

21. Estimated Energy Delivered For a Turbine Rated at 600kW

22. Hydropower Run of the River

23. Power Plant

25. Conversion Factors

26. Pelton Turbine

27. Angle Drive Propeller Reaction Turbine

28. Net Head after Friction Loss

29. Friction Head Loss vs Flow Rate for Small Pipes

30. Weir For Measuring Flow 1. Q = 1.8 (W- 0.2h)h 1.5 (m 3 /s)

31. Electrical Block Diagram for Micro Hydro System

32. Pumped Hydro System

33. Raccoon Mountain

35. Two Penstock Pumped Hydro System

36. Biomass Gasification Process

37. Geothermal Plants

38. Binary Geothermal System