Abstract
The electrical frequency of an interconnection must be maintained very close to its nominal level at all times. Large frequency deviations can lead to unintended consequences such as load shedding, instability, and machine damage, among others. Turbine governors of conventional generating units provide primary frequency response (PFR) to ensure that frequency deviations are not significant duringlarge transient events. Increasing penetrations of variable renewable generation, such as wind and solar power, and planned retirements of conventional thermal plants - and thus a reduction in the amount of suppliers with PFR capabilities - causes concerns about a decline of PFR and system inertia in North America. The capability of inverter-coupled wind generation technologies to contribute toPFR and inertia, if appropriately equipped with the necessary control features, can help alleviate concerns. However, these responses differ from those supplied by conventional generation and inertia, and it is not entirely understood how variable renewable generation will affect the system response at different penetration levels. This paper evaluates the impact of wind generation providing PFRand synthetic inertial response on a large interconnection.
Original language | American English |
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Number of pages | 11 |
State | Published - 2013 |
Event | International Workshop on Large-Scale Integration of Wind Power Into Power Systems as Well as on Transmission Networks for Offshore Wind Power Plants - London, United Kingdom Duration: 22 Oct 2013 → 24 Oct 2013 |
Conference
Conference | International Workshop on Large-Scale Integration of Wind Power Into Power Systems as Well as on Transmission Networks for Offshore Wind Power Plants |
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City | London, United Kingdom |
Period | 22/10/13 → 24/10/13 |
NREL Publication Number
- NREL/CP-5D00-58995
Keywords
- active power controls
- inertial control
- National Renewable Energy Laboratory (NREL)
- NREL
- primary frequency control
- primary frequency response
- wind generation