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Blade height impact on self-starting torque for Darrieus vertical axis wind turbines

Hossein Seifi Davari, Ruxandra Mihaela Botez, Mohsen Seify Davari, Harun Chowdhury, Hasan Hosseinzadeh

2024Energy Conversion and Management X12 citationsDOIOpen Access PDF

Abstract

Self-starting torque ( T Self - s t a r t i n g ) presents a significant challenge for Darrieus vertical axis wind turbines (DVAWTs), often necessitating external assistance to initiate rotation. This study addresses the issue by optimizing airfoil design, employing embossed blades (EBs), and adjusting blade height ( H ) to reduce T Self - s t a r t i n g . From an analysis of 43 rotors at a chord-based Reynolds number ( Re c ) of 45,192, national advisory committee for aeronautics (NACA) 0015, NACA4412, and NACA4415 rotors were selected for their superior power coefficients ( C p ). These rotors were optimized using double-multiple streamtube theory (DMST) and particle swarm optimization (PSO), focusing on the thickness-to-chord ratio (TCR). Among them, the NACA0015-Opt rotor achieved the highest C p , demonstrating its effectiveness in enhancing DVAWT efficiency. This study also investigates the effect of H on the performance of EBs, comparing H of 35 cm and 75 cm. Experimental findings reveal that combining airfoil optimization with EBs, along with an increased H , leads to a substantial decrease in T Self - s t a r t i n g . Specifically, higher H enhance the aerodynamic performance of EBs by improving airflow over the blade surface, further reducing drag and contributing to a significant reduction in T Self - s t a r t i n g . At a H of 75 cm, the embossed blade Darrieus vertical axis wind turbine (EB-DVAWT) equipped with the optimized NACA0015-Opt rotor required 15.92 %, 17.04 %, 18.12 %, 21.23 %, 52.06 %, 49.23 %, 51.25 %, 35.20 %, 14.12 %, and 9.09 % less T Self - s t a r t i n g at wind velocities ( U ∞ ) of 1, 2, 3, 4, 5, 6, 7, 8, 9, and 9.5 m/s, respectively, compared to the baseline smooth blade Darrieus vertical axis wind turbine (SB-DVAWT) with the original NACA0015 rotor.

Topics & Concepts

Vertical axisHorizontal axisVertical axis wind turbineWind powerTorqueMarine engineeringGeologyGeodesyEnvironmental sciencePhysicsEngineeringStructural engineeringElectrical engineeringEngineering drawingThermodynamicsWind Energy Research and DevelopmentWind and Air Flow StudiesFluid Dynamics and Vibration Analysis
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