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Northwest National Marine Renewable Energy Center NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction Alberto Aliseda, Sylvain Antheaume, Teymour Javaherchi, Joseph Seydel Department of Mechanical Engineering University of Washington NOAA Northwest Fisheries Science Center 12/08/2009

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NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction Alberto Aliseda, Sylvain Antheaume, Teymour Javaherchi, Joseph Seydel Department of Mechanical Engineering University of Washington NOAA Northwest Fisheries Science Center 12/08/2009. - PowerPoint PPT Presentation

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Page 1: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

NW National Marine Renewable Energy Center

Turbine Performance and Wake Prediction

Alberto Aliseda, Sylvain Antheaume, Teymour Javaherchi, Joseph Seydel

Department of Mechanical EngineeringUniversity of Washington

NOAA Northwest Fisheries Science Center 12/08/2009

Page 2: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Device Performance and Wake Modeling

Fluid Mechanics Modeling:- flow around turbine blades- flow in the turbine wake- wake-turbine interactions- wake-wake interactions

Page 3: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Device Performance and Wake Modeling

We use a hierarchy of numerical models for simulation of different aspect of the physics:- Porous Disk: Drag and Energy Dissipation - Virtual Blade Model: Axisymmetric and Steady - S/M Reference Frame: Navier-Stokes in a rotating reference frame- Moving Mesh: Full blade representation.

Page 4: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling

Because of the concentrated nature of tidal energy, understanding the wake-turbine and wake-wake interactions is key to the development of this technology.

Turbine spacing rules developed for wind farms can not easily be extended to tidal. They are empirical, not derived from first principles and not formulated in terms of non-dimensional parameters.

Page 5: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling: Near Wake

The near wake has important technological and environmental effects:- Sediment scouring by high speed tip flows- Bio effects of pressure fluctuations in tip vortices: fish bladder.

Page 6: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling: Near Wake

Page 7: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling: Far Wake

The far wake has a dominant role in turbine array design and estuarine dynamics:- Efficient turbine spacing in narrow high kinetic energy channels- Stratification and mixing in tidal channels- Estuarine circulation: flow exchange, nutrient and oxygen concentrations.

Page 8: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling: Far Wake

Page 9: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Wake Modeling: Far Wake

Page 10: NW National Marine Renewable Energy Center Turbine Performance and Wake Prediction

Northwest National Marine Renewable Energy Center

Turbine Modeling: Experimental Validation

Plans to build a large-scale hydrodynamic testing facility


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