Performance of a 90°-Bent Bladed Vertical Axis Wind Turbine Model with Various Numbers of Blades

This study aims to design a vertical axis wind turbine that can effectively harness the power of wind. This was performed by designing and testing a vertical axis wind turbine with 2, 3 and 4 blades bent at 90° angles in wind speeds between 1.6 m/s and 4.2 m/s for every type of wind turbine. The res...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2019-10, Vol.619 (1), p.12052
Main Authors: Sule, Luther, Mochtar, Andi Amijoyo, Jalaluddin
Format: Article
Language:English
Subjects:
blades bent
blades momentum
coefficient of power
Computational fluid dynamics
number of blades
Turbine blades
Turbines
Vertical axis wind turbines
Wind power
wind speeds
wind turbines
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Summary:This study aims to design a vertical axis wind turbine that can effectively harness the power of wind. This was performed by designing and testing a vertical axis wind turbine with 2, 3 and 4 blades bent at 90° angles in wind speeds between 1.6 m/s and 4.2 m/s for every type of wind turbine. The results show that 2-blade vertical axis wind turbines coefficient of power (CP) = 0.28 is most capable of converting wind power into electricity with wind speeds of 3.4 m/s and 3-blade wind turbines CP = 0.40 in wind speeds of 2.2 m/s, and 4 blade wind turbines CP = 0.25 performed best in wind speeds of 2.4 m/s. The CP of all three wind turbines decreased as wind speeds increased to 4.2 m/s. The examination and calculation analysis results indicate that 3-blade wind turbines work more effectively than 2-blade and 4-blade wind turbines due to the asymmetric positioning creating a relatively small drag, and the distance between each blade and the shaft of the wind turbine creates a rift allowing for wind to flow which results in the blades hitting other. This increases the blades momentum leading to less turbulence for 3-blade wind turbines.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/619/1/012052