Publication | Closed Access
Active load reduction using individual pitch, based on local blade flow measurements
174
Citations
6
References
2004
Year
EngineeringFlow ControlLoad‐reducing StrategiesIndividual Blade ControlMechanical EngineeringRotor DynamicWind EngineeringWind Turbine AerodynamicsWind TurbinesSystems EngineeringWind EnergyActive Load ReductionWind-assisted PropulsionWind Power GenerationControl ConceptWind Turbine ModelingIndividual PitchAerospace EngineeringWind Turbine BladesMechanical SystemsAerodynamicsWind Energy TechnologyStructural MechanicsVibration Control
Abstract A new load‐reducing control strategy for individual blade control of large pitch‐controlled wind turbines is presented. This control concept is based on local blade inflow measurements and offers the possibility of larger load reductions, without loss of power production, than seen in other state‐of‐the‐art load‐reducing concepts. Since the new flow‐based concept deviates significantly from previous published load‐reducing strategies, a comparison of the performance based on aeroelastic simulations is included. Advantages and drawbacks of the systems are discussed. Copyright © 2004 John Wiley & Sons, Ltd.
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