Canard optimization for enhancing the performance of small horizontal axis wind turbine at low wind speeds

• Published in: Journal of mechanics Vol. 37; pp. 63 - 71
• Main Authors: Shiah, Yui-Chuin, Chang, Chia Hsiang, Chen, Yu-Jen, Reddy, Ankam Vinod Kumar
• Format: Journal Article
• Language: English
• Published: Taipei Oxford University Press 01.01.2021
• Subjects: Aerodynamics; Design; Horizontal Axis Wind Turbines; Households; Mechanics; Optimization; Parameters; Performance enhancement; Pressure distribution; Ratios; Reynolds number; Roots; Simulation; Stalling; Taguchi methods; Turbines; Urban areas; Wind speed; small variable-speed HAWT; canards; aerodynamic stall
• ISSN: 1811-8216; 1727-7191; 1811-8216
• DOI: 10.1093/jom/ufaa004

Generally, the environmental wind speeds in urban areas are relatively low due to clustered buildings. At low wind speeds, an aerodynamic stall occurs near the blade roots of a horizontal axis wind turbine (HAWT), leading to decay of the power coefficient. The research targets to design canards with optimal parameters for a small-scale HAWT system operated at variable rotational speeds. The design was to enhance the performance by delaying the aerodynamic stall near blade roots of the HAWT to be operated at low wind speeds. For the optimal design of canards, flow fields of the sample blades with and without canards were both simulated and compared with the experimental data. With the verification of our simulations, Taguchi analyses were performed to seek the optimum parameters of canards. This study revealed that the peak performance of the optimized canard system operated at 540 rpm might be improved by ∼35%.