Blade Simulation of Small H-Vertical Axis Wind Turbine Based on Optimal Wind Power Coefficient
GUO Xingwen1, LIU Yingbo1, QIU Yong2
1. Department of Engineering Mechanics, Hohai University, Nanjing 210098, China;2. Jiangsu Shenma Electric Power Co. Ltd., Nantong 226500, Jiangsu Province, China
Abstract:A two-dimensional CFD model of the external flow-field for a 1kW H-vertical axis wind turbine is established by using the software of Flunent. The sliding mesh technique and the SST k-ω turbulent model are adopted. The model is intended to study the impact of different lengths of chord and different shapes of airfoil on the wind power coefficient for the H-vertical axis wind turbine. By fixing the Gurney flap of different heights on the tail of blade, the efficiency improvement of wind power coefficient is studied, and the curve of wind power coefficient for the H-vertical axis wind turbine with the tip-speed under different situations is derived. The results show that the blade of NACA 0018 with the chord length of 300mm is relatively suitable for an H-vertical axis wind turbine. The H-vertical axis wind turbine works more effectively at a tip-speed ratio from 2.5 to 3.5. The wind power coefficient of H-vertical axis wind turbine is able to be increased 3% by using the Gurney flap with flap height equaled to 1% of chord length and tip-speed ratio of 2.8.