Litcius/Paper detail

Bio-inspired blades with local trailing edge flexibility increase the efficiency of vertical axis wind turbines

Miguel Somoano, Francisco Huera-Huarte

2022Energy Reports15 citationsDOIOpen Access PDF

Abstract

This experimental study is focused on quantifying the effect of trailing edge flexibility on the performance of a three straight bladed vertical axis wind turbine, with a chord-to-diameter ratio c/D=0.16 at a moderately high Reynolds number (based on diameter) ReD=4⋅105. The blades consist of NACA-0015 profiles that are fixed with a pitch angle β=6∘ toe-out, and allow interchangeable trailing edges in the last 17% of their chord length. The research presented here provides a proof of concept for the improved performance of vertical axis wind turbines, due to the effect of flexibility at the trailing edge of their blades. We show that blades with semi-flexible trailing edge, can extend the range of rotor operating regimes, leading to an increase of approximately 10% in the performance of the turbine. An excess of flexibility results in diminished efficiencies.

Topics & Concepts

Trailing edgeChord (peer-to-peer)Vertical axisTurbine bladeFlexibility (engineering)Horizontal axisVertical axis wind turbineWind powerReynolds numberLeading edgeRotor (electric)TurbineAerospace engineeringMarine engineeringGeologyMechanicsStructural engineeringMechanical engineeringPhysicsGeometryComputer scienceEngineeringTurbulenceMathematicsElectrical engineeringDistributed computingStatisticsWind Energy Research and DevelopmentBiomimetic flight and propulsion mechanismsWind and Air Flow Studies
Bio-inspired blades with local trailing edge flexibility increase the efficiency of vertical axis wind turbines | Litcius