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Design and Performance Evaluation of Low-Speed Vertical Axis Wind Turbines with Wind Boosters using CFD Analysis
The use of wind basedenergy is quickly expanding over the planet. The goal of this study is to use computational methods of fluid dynamics to develop a novel modelof VAWT includingWindbooster for various rotor blades like two, three, and four blades in order to enhance effectiveness. CAD modelling approachesof vertical axis wind turbines including and excludingbooster are created. Including all vertical axis wind turbine blade designs including and excludingbooster, torque, power, and Coefficient of performance are compared.The performanceof three blades on the basis of mechanical properties includingiwind amplifier is 29.9% greater than two blades using wind amplifier, and four blades using wind amplifier is 21.5 percent greaterthan three blades using wind amplifier, according to the findings. Because the mechanical energy created by a four-blade wind booster wasn't as great as it is includingthree blades, VAWT employingthree-blade wind booster seems to be more effective than VAWT with a two- or four-blade wind booster. For improved mechanical durability, VAWT with three-blade wind amplifier is recommended.
Design and Performance Evaluation of Low-Speed Vertical Axis Wind Turbines with Wind Boosters using CFD Analysis
The use of wind basedenergy is quickly expanding over the planet. The goal of this study is to use computational methods of fluid dynamics to develop a novel modelof VAWT includingWindbooster for various rotor blades like two, three, and four blades in order to enhance effectiveness. CAD modelling approachesof vertical axis wind turbines including and excludingbooster are created. Including all vertical axis wind turbine blade designs including and excludingbooster, torque, power, and Coefficient of performance are compared.The performanceof three blades on the basis of mechanical properties includingiwind amplifier is 29.9% greater than two blades using wind amplifier, and four blades using wind amplifier is 21.5 percent greaterthan three blades using wind amplifier, according to the findings. Because the mechanical energy created by a four-blade wind booster wasn't as great as it is includingthree blades, VAWT employingthree-blade wind booster seems to be more effective than VAWT with a two- or four-blade wind booster. For improved mechanical durability, VAWT with three-blade wind amplifier is recommended.
Design and Performance Evaluation of Low-Speed Vertical Axis Wind Turbines with Wind Boosters using CFD Analysis
Singh , Sardar Karanjeet (author) / Vishwakarma, Shravan (author)
2021-12-28
doi:10.24113/ijoscience.v7i12.448
SMART MOVES JOURNAL IJOSCIENCE; Volume 7, Issue 12, December 2021; 34-45 ; 2582-4600
Article (Journal)
Electronic Resource
English
VAWT , Wind Boosters , CFD , Wind Turbine
DDC:
690
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