Keyphrases
Power Coefficient
100%
Horizontal Axis Tidal Stream Turbine (HATST)
100%
Computational Design Methods
100%
Turbulence Model
80%
Lift Coefficient
80%
Tidal Turbine Blades
60%
Straight Blade
60%
Computational Fluid Dynamics
40%
Mesh Resolution
40%
ANSYS CFX
40%
Tidal Turbine
40%
Design Methodology
20%
Further Analysis
20%
Comparative Analysis
20%
Numerical Methods
20%
Three-parameter
20%
Blade Height
20%
Computational Fluid Dynamics Analysis
20%
Pressure Distribution
20%
Caudal Fin
20%
Model Coefficients
20%
3D Mesh
20%
Blade Surface
20%
Computational Design
20%
Turbine Model
20%
Blade Design
20%
Surface Pressure Distribution
20%
Shear Stress Transport Turbulence Model
20%
Rotational Velocity
20%
Grid Convergence
20%
Mesh Independency
20%
Shear Stress Transport Model
20%
Shear Stress Transport
20%
Engineering
Design Method
100%
Power Coefficient
100%
Horizontal Axis
100%
Lift Coefficient
80%
Computational Fluid Dynamics
60%
Blade Turbine
60%
Blade Span
40%
Comparative Analysis
20%
Model Coefficient
20%
Blade Surface
20%
Blades Design
20%
Rotational Velocity
20%
Surface Pressure Distribution
20%
Grid Convergence
20%
Pressure Distribution
20%