An overview of stability challenges for power‐electronic‐dominated power systems: The grid‐forming approach

An overview of stability challenges for power‐electronic‐dominated power systems: The grid‐forming approach

Inverter‐based generators (IBGs) are becoming popular in modern power systems. When the penetration of IBGs is increasing in power systems, new stability, protection, and monitoring challenges are introduced in the grid. Grid‐forming (GFM) control of converters is seen as a promising solution for fu...

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Veröffentlicht in:IET Generation, Transmission & Distribution Transmission & Distribution, 2023-01, Vol.17 (2), p.284-306
Hauptverfasser: Shakerighadi, Bahram, Johansson, Nicklas, Eriksson, Robert, Mitra, Pinaki, Bolzoni, Alberto, Clark, Angel, Nee, Hans‐Peter
Format: Artikel
Sprache:eng
Schlagworte:
Academic research
Bus test systems
Computer software
Electric equipment protection
Electric power system control
Electric power system protection
Electric power system stability
Electric power systems
Electric power transmission networks
Inverter-based
Power
Power-electronics
Property
Simulation methods
Simulation software
Technical challenges
Testing equipment
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Zusammenfassung:Inverter‐based generators (IBGs) are becoming popular in modern power systems. When the penetration of IBGs is increasing in power systems, new stability, protection, and monitoring challenges are introduced in the grid. Grid‐forming (GFM) control of converters is seen as a promising solution for future power grids to overcome particular stability challenges. Here, the technical challenges of the GFM‐based IBGs are reviewed from the point of view of TSOs and academic research. The properties of different GFM methods are studied for different GFM‐based IBGs for a single grid‐tied IBG and using the IEEE 9‐bus test system. Simulation results are provided by using the PSCAD‐EMT simulation software.
ISSN:1751-8687
1751-8695
1751-8695
DOI:10.1049/gtd2.12430