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Bio-inspired pressure side stepped NACA 23012 C as wind turbine airfoils in low Reynolds number

Ahmed M. Elsayed, Osama A. Gaheen, Haitham Elshimy, Ernesto Benini, Mohamed A. Aziz

2025Energy Reports12 citationsDOIOpen Access PDF

Abstract

The current study focuses on obtaining a new form of stepped airfoil inspired by the shape of a bird’s wing in nature, which consists of three steps of feathers. A stepped wing can be used for passive flow control to improve the aerodynamic characteristics and delay stall in wind turbine blades. This study focused on a one-stepped NACA 23012 C section and later a three-stepped airfoil section, which was numerically analyzed at various step lengths, depths, and angles of attack. The numerical results were experimentally verified using physical models, and the findings demonstrated a maximum lift coefficient (C L,max ) of 11.3 % increment for the three-stepped airfoil. Furthermore, the three-stepped airfoil retained more C L values for the angle of attack (AOA) less than 14 degrees and increased lift-to-drag ratio C L /C D for AOA less than 6 degrees. For the one-stepped airfoil, C L,max was increased by 12.5 %, and stall AOA was delayed by 2 degrees while maintaining higher C L values after AOA 14 degrees.

Topics & Concepts

AirfoilReynolds numberTurbineMechanicsNACA airfoilMaterials scienceAerospace engineeringPhysicsMarine engineeringEngineeringTurbulenceBiomimetic flight and propulsion mechanismsAerospace Engineering and Energy SystemsPlasma and Flow Control in Aerodynamics
Bio-inspired pressure side stepped NACA 23012 C as wind turbine airfoils in low Reynolds number | Litcius