Earth and Planetary Sciences
Thesis
100%
Wave Power
100%
University
100%
Public
100%
Reliability
100%
Control System
25%
Electricity
25%
Structural Reliability
18%
Need
18%
Wave
18%
Failure Mode
12%
Calibration
12%
Utilization
12%
State
12%
Condition
12%
Cost
12%
Amount
12%
Optimization
12%
Protection
12%
Storm
12%
Safety Factor
6%
Environmental Condition
6%
Annual Variation
6%
Helicopter
6%
Knowledge
6%
Model
6%
Foci
6%
Investigation
6%
Strategy
6%
Industry
6%
Impact
6%
Experience
6%
Datum
6%
Wind
6%
Gas
6%
Speed
6%
Foundation
6%
Standard
6%
Estimate
6%
Order
6%
Value
6%
Month
6%
Paper
6%
Failure
6%
Oil
6%
Winter
6%
Cargo
6%
Advice
6%
Harvesting
6%
Boat
6%
Engineering
Reliability
100%
Power Converter
100%
Waves Energy
100%
Extreme Load
25%
Control Systems
25%
Structural Reliability
18%
Optimization
12%
Structural Design
12%
Calibration
12%
Limit State
12%
Failure Mode
12%
Limited Amount
12%
Fatigue Load
12%
Reliability Consideration
12%
Design
12%
Applications
12%
Offshore Wind Turbines
6%
Fatigue Limit
6%
System Failure
6%
Probabilistic Approach
6%
Helicopters
6%
Reliability Assessment
6%
Measurement Uncertainty
6%
Petroleum Industry
6%
Mechanical Component
6%
Produce Electricity
6%
Factor of Safety
6%
Energy Harvesting
6%
Critical System
6%
Idle Mode
6%
Initial Investment Cost
6%
Mooring Load
6%
Models
6%
Characteristics
6%
Energy Engineering
6%
Foundations
6%
Failure (Mechanical)
6%
Wind
6%
Drives
6%
Environmental Condition
6%
Boats
6%
Material Science
Devices
100%
Paper
25%
Gas
25%
Helicopter
25%
Welded Structure
25%