Impact of reduced system inertia on stable power system operation and an overview of possible solutions
- Resource Type
- Conference
- Authors
- Spahic, Ervin; Varma, Deepak; Beck, Gunther; Kuhn, German; Hild, Volker
- Source
- 2016 IEEE Power and Energy Society General Meeting (PESGM) Power and Energy Society General Meeting (PESGM), 2016. :1-5 Jul, 2016
- Subject
- Engineering Profession
Power, Energy and Industry Applications
Generators
Static VAr compensators
Time-frequency analysis
Frequency synchronization
Batteries
Frequency conversion
Kinetic energy
frequency stability
synthetic inertia
ROCOF
Frequency Stabilizer
supercapacitors
- Language
- ISSN
- 1944-9933
This paper provides a general overview of system inertia and its impact on the transmission grid stability. In the main part of the paper different solutions that provide frequency response have been analysed. Both conventional and alternative solutions have been described and their technical parameters have been presented. It has been shown that the available energy and maximum available power for the initial inertia response are limited in case of conventional generators. On the contrary the alternative solutions providing synthetic inertia (SVC PLUS Frequency Stabilizer and battery storages) are limited only by the amount of the energy stored and their rated power. It has been shown that from the technical as well as from an economic and environmental point of view the SVC PLUS Frequency Stabilizer and battery storage can provide the needed synthetic inertia in order to mitigate large frequency deviations. Furthermore, on comparing the SVC PLUS Frequency Stabilizer and battery storages it has been shown that for short time applications in range of several seconds (typical duration before the primary response starts) the SVC PLUS Frequency Stabilizer has significant economical and footprint advantages over battery solutions. This is mainly due to application of the supercaps as short time power storage technology.