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Variability in large-scale wind power generation
Juha Kiviluoma
*
, Hannele Holttinen
, David Weir
, Richard Scharff
, Lennart Soder
*
Corresponding author for this work
DOES - Design and Operation of Energy Systems
Norwegian Water Resources and Energy Directorate (NVE)
KTH Royal Institute of Technology
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
58
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Citations (Scopus)
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Keyphrases
Bonneville Power Administration
33%
Capacity Factor
33%
China
33%
Denmark
66%
Dispersed Wind Power
33%
Diurnal Variability
33%
Duration Variability
33%
Electric Reliability Council of Texas (ERCOT)
33%
Finland
33%
Gansu
33%
Geographic Spread
33%
Germany
33%
High Capacity
33%
High Variability
100%
Ireland
33%
Jilin
33%
Large-scale Wind Power Generation
100%
Liaoning
33%
Low Variability
66%
Net Load
33%
Net Load Variability
33%
Nominal Capacity
33%
North America
33%
Norway
33%
Offshore Wind Power
33%
Output Level
33%
Portugal
33%
Power Net
33%
Power System
33%
Probability Distribution
33%
Quebec
33%
Ramp Duration
33%
Seasonal Variability
33%
Small Area
33%
Spain
33%
Sweden
33%
Systems-based
33%
Well-dispersed
33%
Wind Power
33%
Wind Power Ramps
66%
Wind Power Variability
66%
INIS
bonneville power administration
14%
capacity
28%
china
14%
comparative evaluations
14%
data
14%
denmark
28%
distribution
14%
electric reliability councils
14%
finland
14%
germany
14%
ireland
14%
levels
14%
north america
14%
norway
14%
output
28%
portugal
14%
power generation
100%
power systems
14%
probability
14%
quebec
14%
spain
14%
sweden
14%
texas
14%
wind
28%
wind power
100%
Earth and Planetary Sciences
China
16%
Denmark
33%
Energy Generation
100%
Finland
16%
Germany
16%
Ireland
16%
North America
16%
Norway
16%
Offshore Wind Power
16%
Portugal
16%
Quebec
16%
Spain
16%
Sweden
16%
Texas
16%
Wind Power
100%
Engineering
Capacity Factor
16%
Germany
16%
Nominal Capacity
16%
Output Level
16%
Power Engineering
16%
Real Data
16%
Wind Power
100%
Wind Power Generation
100%