@misc{71c64d5ab87045d7af1ba20f36e4443b,
title = "Study of Seamless Microgrid Transition Operation Using Grid-Forming Inverters",
abstract = "This paper investigates operational techniques to achieve seamless (smooth) microgrid (MG) transitions by dispatching a grid-forming (GFM) inverter. In traditional approaches, the GFM inverter must switch between grid-following (GFL) and GFM control modes during MG transition operation. Today's inverter technology allows GFM inverters to always operate in GFM control mode, so it is worth exploring how to use them to achieve smooth MG transition operation. This paper proposes three operational techniques: a traditional scheme of switching between GFL and GFM control; a new scheme of consistent GFM control and shifting the droop intercept up before islanding operation; and a new scheme of consistent GFM control and shifting the droop intercept up before synchronization operation. A full hardware setup is established to compare the three techniques and showcase their implementations in real-world applications. The results show that the third technique outperforms the others and exhibits the best transition performance because the GFM inverter maintains the same operating points during the transition operation. Therefore, we conclude that ensuring smooth MG transition operation requires that the GFM inverter(s) maintain the same operating points (v, f, P, Q, and phase angle) during the transition operation in addition to minimizes the point of common coupling power flow.",
keywords = "grid-forming, islanding operation, smooth transition operation, synchronization operation",
author = "Jing Wang and Subhankar Ganguly and Benjamin Kroposki",
year = "2023",
language = "American English",
series = "Presented at the 49th IECON Annual Conference of the IEEE Industrial Electronics Society (IES), 16-19 October 2023, Singapore",
type = "Other",
}