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Design study of a horizontal axis tidal turbine blade
Siddharth Kulkarni
School of Engineering and Technology
Research output
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Thesis
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Doctoral Thesis
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Dive into the research topics of 'Design study of a horizontal axis tidal turbine blade'. Together they form a unique fingerprint.
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Keyphrases
Airfoil
11%
Analysis Simulation
11%
ANSYS CFX
22%
Biomimic
22%
Blade Shape
33%
Blue Marlin
11%
Caudal Fin
22%
Caudal Fin Shape
11%
Chord Length
11%
Comparative Analysis
22%
Complex Mathematical Model
11%
Computation Overhead
11%
Computational Fluid Analysis
88%
Curved Blade
44%
Design Strategy
11%
Design Study
100%
Efficiency Improvement
11%
Energy Available
11%
Energy Generation
11%
Energy Requirement
11%
Generation Sources
11%
High Power
11%
Horizontal Axis Tidal Stream Turbine (HATST)
100%
Initial Default
11%
Kinetic Energy
11%
Lookalikes
22%
Mechanical Energy
11%
Modeling Techniques
22%
Negative CO2 Emissions
11%
Polynomial Function
11%
Power Coefficient
44%
Renewable Energy
11%
Rest of the World
11%
Seawater
11%
Smagorinsky
33%
SST Model
11%
SST Turbulence Model
11%
Steady State
11%
Straight Blade
33%
Target Shape
11%
Third-order Polynomial
11%
Three-dimensional (3D)
22%
Tidal Current Power Generation
11%
Tidal Turbine Blades
100%
Traditional Energy
11%
Turbine Design
11%
Turbine Model
22%
Turbulence Model
22%
Two-dimensional Airfoil
11%
Engineering
Airfoil
22%
Available Energy
11%
Blade Turbine
100%
Boundary Condition
11%
Centreline
33%
Chord Length
11%
Comparative Analysis
22%
Energy Requirement
11%
Generation Source
11%
Good Agreement
11%
Horizontal Axis
100%
Hydrodynamics
11%
Integral Part
11%
Mathematical Model
11%
Mechanical Energy
11%
Numerical Approach
11%
Polynomial Order
11%
Power Coefficient
44%
Power Generation
22%
Renewable Energy
11%
Target Shape
11%
Transients
11%
Two Dimensional
11%