The aerodynamic effects of blade pitch angle on small horizontal axis wind turbines

Abstract: Purpose The purpose of this paper is to thoroughly investigate the aerodynamic effects of blade pitch angle on small scaled horizontal axis wind turbines (HAWTs) using computational fluid dynamics (CFD) method to find out the sophisticated effects on the flow phenomena and power performance. Design/methodology/approach A small HAWT is used as a reference to validate the model and examine the aerodynamic effects. The blade pitch angle was varied between +2 and −6 degrees, angles which are critical for the ref… Show more

“… 74 , 75 , 76 , 77 As research on small horizontal rotors advanced, the significance of pitch angle was discovered. 78 , 79 , 80 Mayer et al. 81 analyzed how different pitch angles impacted small horizontal rotor starting performance.…”

Small wind turbines and their potential for internet of things applications

“… 74 , 75 , 76 , 77 As research on small horizontal rotors advanced, the significance of pitch angle was discovered. 78 , 79 , 80 Mayer et al. 81 analyzed how different pitch angles impacted small horizontal rotor starting performance.…”

Small wind turbines and their potential for internet of things applications

“…Although the blade pitch angle can affect the performance of a HAWT, its effect may be weaker than those of the airfoil and angle of attack. Kaya et al [24] numerically studied the aerodynamic effects of the blade pitch angle on the performance of small HAWTs at different TSRs. Their results indicated that at low TSRs, a more downward blade pitch angle resulted in a higher C P and a smaller thrust coefficient (C T ); however, at high TSRs, the effect of the blade pitch angle on C P was the reverse.…”

Utilizing the Taguchi Method to Optimize Rotor Blade Geometry for Improved Power Output in Ducted Micro Horizontal-Axis Wind Turbines

Low-speed, low induction multi-blade rotor for energy efficient small wind turbines