INIS
design
100%
operation
100%
wind
100%
iea
100%
power systems
100%
wind power
100%
cost
70%
market
23%
grids
17%
capacity
17%
power production
17%
values
11%
production
11%
electricity
11%
voltage
11%
transmission
11%
demand
11%
variations
11%
errors
11%
operating cost
11%
wind power plants
11%
aggregation
11%
simulation
5%
output
5%
comparative evaluations
5%
control
5%
data
5%
resources
5%
energy
5%
planning
5%
power
5%
industry
5%
modeling
5%
emission
5%
fossil fuels
5%
reliability
5%
forecasting
5%
energy systems
5%
utilities
5%
credits
5%
tariffs
5%
Keyphrases
Wind Power
100%
Power System Operation
100%
System Operation
27%
Euro
27%
Wind Power Production
27%
Wind Power Uncertainty
27%
Power System
18%
Forecast Error
18%
Wind Power Plant
18%
Electricity Market
18%
Integration Costs
18%
Balancing Area
18%
Grid Reinforcement
18%
System Work
9%
Wind Power Integration
9%
Installed Capacity
9%
Power Need
9%
Production Cost
9%
Production Time
9%
Wind Energy
9%
Energy Systems
9%
Fossil Fuels
9%
Load Capability
9%
Market Value
9%
High Cost
9%
System Demand
9%
Load Forecast
9%
Transmission System
9%
Wind Power Generation
9%
High Mass Loading
9%
Wind Power Variability
9%
System Characteristics
9%
System Cost
9%
Cost Increase
9%
Power-to-Power
9%
Market Operation
9%
Total Operating Cost
9%
Wind Integration Studies
9%
Capture System
9%
Load Variation
9%
Wind Power Forecasting
9%
High Penetration
9%
Load Profile
9%
Power System Reliability
9%
System Load
9%
Reactive Power
9%
System Response
9%
Operational Modelling
9%
Transmission Planning
9%
Voltage Dip
9%
Wind Power Cost
9%
Wind Power Penetration
9%
Wind Variability
9%
High Wind Power Penetration
9%
Grid Infrastructure
9%
Wind Variation
9%
Operating Emissions
9%
Output Rate
9%
Cost Value
9%
Geographic Diversity
9%
Production Markets
9%
Design Structure
9%
Industry Expectations
9%
Capacity Credit
9%
Local Wind
9%
Terminal Voltage
9%
Additional Load
9%
Operational Simulation
9%
Power System Cost
9%
Tariff Design
9%
Wind Characteristics
9%
Ramp-rate Control
9%
Interconnection Capacity
9%
Engineering
Wind Power
100%
Final Report
100%
Power Engineering
100%
Power Production
15%
System Operation
10%
Forecast Error
10%
Operating Cost
10%
Electric Power Plant
10%
Production Time
5%
Installed Capacity
5%
Ramp Rate
5%
Fossil Fuel
5%
Reactive Power
5%
Load Forecast
5%
Rate Control
5%
System Reliability
5%
Load Variation
5%
Load Profile
5%
Voltage Dip
5%
Infrastructure
5%
Energy Systems
5%
Terminal Voltage
5%
Earth and Planetary Sciences
Wind Power
100%
State of the Art
5%
Production Cost
5%
Time Series
5%
Energy Demand
5%
Emissions
5%
Wind Forecasting
5%
Fossil Fuel
5%
Timescale
5%