This tutorial summarizes the main challenges imposed by the current limitation on the transient stability of GFM IBRs. To do so, the situations in which GFM IBRs transit between the normal operation mode and the current-saturation operation mode are identified. It has been evident that the angle of the magnitude-saturated current significantly affects post-fault recovery and transient stability. It also explained that the situations in which a GFM IBR returns to the normal operation mode might not be complimentary of the situation in which it enters the current-saturation mode.
About the presenter:
Ali Arjomandi Nezhad received the B.Sc. degree in electrical engineering from Amirkabir University of Technology, Tehran, Iran, in 2016, and the M.Sc. degree in electrical engineering from Sharif University of Technology, Tehran, in 2018. In 2016, he ranked first in the Electrical Engineering Olympiad of Iran. He is currently an Early-Stage Researcher (Marie-Curie INT) and a PhD candidate at Imperial College London. His research interests include control, operation, and planning of modern power grids, especially grids with high-penetration of inverter-based resources.
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InnoCyPES Summer School 2024: Exploring the Cyber-Physical Evolution of Offshore Wind and Distribution Grids.
The programme focused on innovative and key topics for the future of power systems: IoT-Edge Networks, Cybersecurity, Data Management, Power Quality, and Grid-Forming Inverter-Based Resources and Stability.
The event was hosted at the Università del Salento in Lecce, Italy, from September 9th to 13th, 2024.
Innovative Tools for Cyber-Physical Energy Systems (InnoCyPES) is a doctoral network part of the Marie Skłodowska-Curie Actions programme, funded by the European Union under the Horizon Europe Research and Innovation Programme.
Website: innocypes.eu