Engineering
Waves Energy
100%
Rotors
91%
Power Converter
90%
Structural Design
86%
Hydrodynamics
72%
Hydrodynamic Model
49%
Regular Wave
48%
Enhancement
43%
Cost Model
43%
Lift Force
43%
Development
43%
Control Strategy
43%
Techno-Economic Assessment
43%
Hydrofoil
42%
Flow Condition
34%
Demonstrates
18%
Vortex
17%
Attached Flow
17%
Vortex Shedding
17%
Design Process
14%
Events
14%
Excitation Force
14%
Design Condition
14%
Radius
13%
Structural Model
13%
Extraction
12%
Performance
10%
Convertor
9%
Economics
9%
Allowable Stress
8%
Beam
8%
Sea Condition
8%
Dimensioning
8%
Computational Fluid Dynamics
8%
Bending Stress
8%
Compute
8%
Coupled Model
8%
Flow Separation
8%
Bending Moment
8%
Potential Flow
8%
Stress Level
8%
Power Production
8%
Rotational Speed
7%
Hot Spot
7%
Physics
Model
65%
Hydrodynamics
53%
Direct Power Generator
46%
Assessments
43%
Fatigue Damage
43%
Wakes
43%
Hydrofoils
27%
Estimates
18%
Charge Flow Device
17%
Eddy
17%
Performance
10%
Rotation
9%
Independent Variables
9%
Validity
8%
Correction
8%
Separated Flow
8%
Potential Flow
8%
Bending
8%
Calculation
8%
Speed
7%
Earth and Planetary Sciences
Near Wakes
43%
Wave
43%
Hydrofoil
24%
Hydrodynamics
14%
Condition
14%
Model
9%
Wave Power
9%
Need
9%
Whirl
9%