TY - GEN
T1 - Erhöhung der Frequenzstabilität in Inselnetzen mit Hilfe einer RoCoF geregelten Lastbank
AU - Seifried, Sebastian
AU - Distl, Tobias
AU - Lechner, Tobias
AU - Finkel, Michael
AU - Steinhart, Christoph
AU - Witzmann, Rolf
N1 - Publisher Copyright:
© VDE VERLAG GMBH. Berlin. Offenbach
PY - 2021
Y1 - 2021
N2 - Due to a lower amount of rotating mass, island grids have a higher frequency sensitivity compared to the integrated grid. Even relatively small load steps (e.g. starting of electrical machines or switching of high loads) can excite the system and cause triggering of protective equipment, resulting in a break-down of the island grid. During the research project LINDA (Local Island Power Supply and Accelerated Grid Restoration with Distributed Generation Systems in Case of Large-Scale Blackouts) a concept for operating local island grids was developed. This concept does not require communication between the main power plant and other generating units and loads. Balancing supply and demand is done by using the characteristic electrical parameters frequency and voltage. To stabilize the island grid at dynamic excitations, a RoCoF triggered load bank sheds dummy-loads. This concept was tested in a simulation during the LINDA project. In this paper the successful implementation of this method in a laboratory setup is described.
AB - Due to a lower amount of rotating mass, island grids have a higher frequency sensitivity compared to the integrated grid. Even relatively small load steps (e.g. starting of electrical machines or switching of high loads) can excite the system and cause triggering of protective equipment, resulting in a break-down of the island grid. During the research project LINDA (Local Island Power Supply and Accelerated Grid Restoration with Distributed Generation Systems in Case of Large-Scale Blackouts) a concept for operating local island grids was developed. This concept does not require communication between the main power plant and other generating units and loads. Balancing supply and demand is done by using the characteristic electrical parameters frequency and voltage. To stabilize the island grid at dynamic excitations, a RoCoF triggered load bank sheds dummy-loads. This concept was tested in a simulation during the LINDA project. In this paper the successful implementation of this method in a laboratory setup is described.
UR - http://www.scopus.com/inward/record.url?scp=85117570144&partnerID=8YFLogxK
M3 - Konferenzbeitrag
AN - SCOPUS:85117570144
T3 - ETG-Kongress 2021 - Von Komponenten bis zum Gesamtsystem fur die Energiewende
SP - 136
EP - 141
BT - ETG-Kongress 2021 - Von Komponenten bis zum Gesamtsystem fur die Energiewende
PB - VDE VERLAG GMBH
T2 - ETG-Kongress 2021: Von Komponenten bis zum Gesamtsystem fur die Energiewende - ETG Congress 2021: From Components to the Overall System for the Energy Turnaround
Y2 - 18 May 2021 through 19 May 2021
ER -