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Performance analysis of a vertical axis wind turbine using computational fluid dynamics
Tabbi Wilberforce
*
,
Abed Alaswad
*
Corresponding author for this work
Mechanical, Biomedical & Design Engineering
College of Engineering and Physical Sciences
Energy and Bioproducts Research Institute (EBRI)
Engineering for Sustainable Development
Aston University
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Keyphrases
Computational Fluid Dynamics
100%
Performance Analysis
100%
Vertical Axis Wind Turbine
100%
Stator
33%
Dynamic Stall
33%
Urban Areas
16%
Power Output
16%
Low Pressure
16%
Low Performance
16%
Turbulence Model
16%
Physical Environment
16%
Power Coefficient
16%
Rotor
16%
Visual Impact
16%
Mesh Density
16%
High Dynamic
16%
Time Effect
16%
Turbine Blade
16%
Aerodynamics
16%
Torque Coefficient
16%
Tip Speed Ratio
16%
Starting Torque
16%
Conical Surface
16%
Safeness
16%
Stator Blade
16%
Open Rotor
16%
Engineering
Computational Fluid Dynamics
100%
Performance Analysis
100%
Vertical Axis Wind Turbine
100%
Rotors
33%
Output Power
16%
Numerous Advantage
16%
Pressure Outlet
16%
Blade Turbine
16%
Speed Ratio
16%
Starting Torque
16%
Aerodynamics
16%
Material Science
Computational Fluid Dynamics
100%
Surface (Surface Science)
50%
Density
50%