论文信息 - Enhancing Performance of a Horizontal Axis Tidal Turbine using Adaptive Blades

Enhancing Performance of a Horizontal Axis Tidal Turbine using Adaptive Blades

Free stream tidal turbines are a source of growing interest in the marine renewable energy field. Some designs use variable pitch blade control devices in order to maximize the efficiency of the turbines; however these are complex to design, construct and maintain under the severe load conditions sub sea devices experience. Adaptive materials have been used in the wind industry to create bend-twist coupled blades in an effort to bring turbine efficiency ever closer to the Betz limit, and increase annual energy capture. This work encompasses a feasibility study, focusing on hydrodynamic performance calculations, wherein the blade geometry is artificially reconfigured as a function of flow velocity. The pressure distribution over the blade is also analysed. The concept of a passively adaptive tidal turbine blade is shown to increase annual energy capture, reduce blade loading and delay cavitation inception.

S.R. Turnock | R.F. Nicholls-Lee

[1] L. E. Myers,et al. Simulated electrical power potential harnessed by marine current turbine arrays in the Alderney Race , 2005 .

[2] P. L. Fraenkel,et al. Power from marine currents , 2002 .

[3] Don W. Lobitz,et al. Load mitigation with twist-coupled HAWT blades , 1999 .

[4] Paul S. Veers,et al. AEROELASTIC BEHAVIOR OF TWIST-COUPLED HAWT BLADES , 1998 .

[5] A. Bahaj,et al. Initial evaluation of tidal stream energy resources at Portland Bill, UK , 2006 .

[6] Jerald M. Vogel,et al. Effects of Bend–Twist Coupling on Composite Propeller Performance , 2000 .

[7] Paul S. Veers,et al. Aeroelastic tailoring in wind-turbine blade applications , 1998 .

[8] Anthony F. Molland,et al. Measurements and predictions of forces, pressures and cavitation on 2-D sections suitable for marine current turbines , 2004 .