1. Northwest National Marine Renewable Energy Center In-stream Tidal Energy: NW National Marine Renewable Energy Center University of Washington http://depts.washington.edu/nnmrec Jim Thomson Applied Physics Lab and Civil & Environmental Eng. CEE500 - October 22, 2009

2. Northwest National Marine Renewable Energy Center 001,04-23-09,TID Approaches to Tidal Energy BarrageHydrokinetic  Comparable to hydroelectric  Very high cost and environmental footprint  Comparable to wind  Potentially lower cost and environmental footprint

3. Northwest National Marine Renewable Energy Center 002,04-23-09,TID Hydrokinetic Devices  No dominant design ―Hundreds of concepts ―Dozens of lab tests ―Several field tests  No commercial projects Verdant Power New York, East River 5 m, 33 kW Clean Current Race Rocks, BC 3.5 m, ~65 kW Open Hydro EMEC, UK 6 m, ~150 kW MCT Strangford, UK 14x2 m, 1200 kW

4. Northwest National Marine Renewable Energy Center 004,04-23-09,TID Tidal Energy Projects in Puget Sound Race Rocks Demonstration turbine Marrowstone Island Proposed demonstration array Admiralty Inlet Proposed pilot project 10m diamter,~500 kW rated ~100-200 avg. MW practically recoverable

5. Northwest National Marine Renewable Energy Center 005,04-23-09,TID Motivation ■I-937 obligations ■Limited transmission capacity for new wind ■Tidal energy advantages —Predictable resource —No CO 2 emissions —No visual impact —Close to load centers Sun

6. Northwest National Marine Renewable Energy Center 005,04-23-09,TID Considerations ■Existing use (fishing, shipping) ■Potential environmental effects (noise production) ■Cost (difficult environment) Power Cost

7. Northwest National Marine Renewable Energy Center 007,04-23-09,TID Oregon State University –Headquarters and Director (Bob Paasch) –Focus on Wave Energy –College of Engineering, Oceanography, Hatfield Marine Sciences Center University of Washington –Co-Director (Phil Malte) –Focus on Tidal Energy –Mechanical Engineering, Oceanography, Applied Physics Lab Partners –NREL, Snohomish PUD, BioSonics, Sound & Sea Technology, EPRI, Verdant Power, PNWER Northwest National Marine Energy Center

8. Northwest National Marine Renewable Energy Center 007,04-23-09,TID Northwest National Marine Energy Center UW Focus areas (tidal): 1. Environmental Effects 2. Site Characterization and Instrumentation 3. Array Optimization 4. Materials (Survivability and Reliability) Faculty: Thomson (APL/CEE) & Polagye (ME) MS students: Chris Bassett, Jeff Epler, Sam Gooch APL staff: Joe Talbert, Alex deKlerk

9. Northwest National Marine Renewable Energy Center Velocity Time Series Admiralty Inlet, April 2009 Power density is cube of velocity, P=½ρv 3

10. Northwest National Marine Renewable Energy Center Turbulence Gooch et al, 2009

11. Northwest National Marine Renewable Energy Center Directionality Gooch et al, 2009

12. Northwest National Marine Renewable Energy Center Boundary Layer Effects Gooch et al, 2009 Single profile

13. Northwest National Marine Renewable Energy Center 003,04-22-09,TID Velocity Surveys Polagye, in progress

14. Northwest National Marine Renewable Energy Center Underwater Noise: spectra Bassett, in progress

15. Northwest National Marine Renewable Energy Center Underwater Noise: sources Other ship traffic Ferry crossings June 15th, 2009 Spectrogram Bassett, in progress Other ship traffic

16. Northwest National Marine Renewable Energy Center Underwater Noise: sources Other ship traffic Ferry crossings June 15th, 2009 Spectrogram Bassett, in progress

17. Northwest National Marine Renewable Energy Center Underwater noise – cummulative Bassett, in progress

18. Northwest National Marine Renewable Energy Center Underwater pseudo-noise: pressure fluctuations at hydrophone Bassett, in progress

19. Northwest National Marine Renewable Energy Center 003,04-22-09,TID Water quality: salinity, temperature, turbidity, oxygen, fluorescence, pH

20. Northwest National Marine Renewable Energy Center 005,04-22-09,TID Scoured seabed Relatively flat Cobbles and gravel Sponges Barnacles Consistent with high currents and grab samples Bottom characterization

21. Northwest National Marine Renewable Energy Center

22. 009,04-23-09,TID M. Kawase (UW-SO), B. Polagye (UW-ME), K. Thyng (UW-ME) 1D Channel Model M2 amplitude change (mm) Area 1: Environmental Effects – tidal range Tidal range impact of 145 MW plant

23. Northwest National Marine Renewable Energy Center 013,04-23-09,TID Area 3: Array Optimization R/V Jack Robertson Profs. Aliseda (ME) & Riley (ME), MS student Teymour Javaherchi Single reference frame (SRF) simulations

24. Northwest National Marine Renewable Energy Center 015,04-23-09,TID Clean Current turbine: 6 months deployment BeforeAfter Area 4: Survivability and Reliability M. Tuttle (ME), B. Polagye (ME)

25. Northwest National Marine Renewable Energy Center 016,04-23-09,TID Area 4: Preliminary Materials Testing Glass fiber in epoxy (uncoated) Carbon fiber in epoxy (uncoated) Low-copper coating (glass fiber in epoxy) High-copper coating (glass fiber in epoxy) Inert coating (rubber) Aluminum (uncoated) Stainless steel (uncoated)

26. Northwest National Marine Renewable Energy Center 017,04-23-09,TID Questions? Northwest National Marine Renewable Energy Center nnmrec.oregonstate.edu (OSU - Wave) depts.washington.edu/nnmrec (UW - Tidal)

27. Northwest National Marine Renewable Energy Center 012,04-23-09,TID Area 2 Detail: Stationary Surveys 300 kHz ADCP (velocity) Lead Weight (600 lbs) Mini-CTD (salinity and temperature) Hydrophone (background noise) Sea Spider (heavy duty fiberglass frame) Acoustic release (redundant recovery) Programmed for 4 month deployment