Engineering
Waves Energy
100%
Power Converter
100%
Turbine
78%
Optimization
70%
Geometry Optimization
61%
Objective Function
34%
Performance
33%
Design
27%
Annual Energy Production
26%
Pitch
23%
Algorithm
23%
Development
21%
Mass Distribution
21%
Design Optimization
19%
Manufacturability
19%
Generates
15%
Cost Reduction
14%
Flaps
14%
Joints (Structural Components)
14%
Detached Eddy Simulation
14%
Surfaces
14%
Wave Group
14%
Simulation Model
14%
Trailing Edge
14%
Energetics
14%
Extreme Load
14%
Design for Manufacturability
14%
Blade Element Momentum
14%
Hydrodynamics
13%
Generators
13%
Optimisation Problem
12%
High Potential
11%
Oscillation
11%
Reduction
11%
Energy Engineering
11%
Rotors
11%
Power Generation
9%
Multiobjective Optimization
9%
Device Structure
9%
Maximization
9%
Submerged Surface
9%
Supports
9%
Testing
8%
Water
8%
Control Systems
8%
Models
7%
Power Production
7%
Levelised Cost of Energy
7%
Peak Power
7%
Flow Condition
7%
Streamwise Force
7%
Impedance
7%
Past Decade
7%
Control Strategy
7%
Reliability
5%
Earth and Planetary Sciences
Turbine
42%
Wave
30%
Simulation
28%
Array
28%
Condition
19%
Environment
18%
Site
16%
Renewable Energy
15%
Wake
15%
Model
14%
Vortex
14%
Assessment
14%
Optimization
14%
Wave Group
14%
Momentum
14%
Characterization
14%
Current Velocity
7%
Data Set
7%
Tidal Power
7%
Wave Power
7%
Motivation
7%
Tool
6%
Ocean Energy
6%
Hydrodynamics
5%
Wave Spectrum
5%
Increasing
5%
Physics
Turbine
50%
Arrays
33%
Performance
21%
Wakes
15%
Optimization
14%
Eddy
14%
Variations
14%
Simulation
14%
Assessments
14%
Momentum
14%
Current Velocity
7%
Ratios
5%
Utilization
5%
Increasing
5%