Open AccessA novel design of single‐phase microgrid based on non‐interference core synchronous inverters for power system stabilization
Author(s) -
Yorino Naoto,
Sekizaki Shinya,
Adachi Kota,
Sasaki Yutaka,
Zoka Yoshifumi,
Bedawy Ahmed,
Shimizu Toshihisa,
Amimoto Kazuya
Publication year - 2023
Publication title -
iet generation, transmission and distribution
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.92
H-Index - 110
eISSN - 1751-8695
pISSN - 1751-8687
DOI - 10.1049/gtd2.12455
Subject(s) - inverter , microgrid , transient (computer programming) , power (physics) , computer science , grid , stability (learning theory) , single phase , interference (communication) , core (optical fiber) , electronic engineering , core model , control theory (sociology) , engineering , electrical engineering , voltage , telecommunications , mathematical analysis , channel (broadcasting) , physics , geometry , mathematics , control (management) , quantum mechanics , machine learning , artificial intelligence , operating system
This paper summarizes our recent work on Grid‐Forming Inverter (GFM) application to power systems. We have developed a novel design of GFM, a single‐phase synchronous inverter (SSI) for the conventional 100/200V distribution network based on the concept of “non‐interference core (NIC) dynamic model.” This paper first explains the design concept of NIC‐SSI and a simulation model of SSI for power system analysis. Then the stabilization effect is investigated, where the installation of SSI on the single‐phase consumer side is assumed as a new concept. The improvement of frequency and transient stability are evaluated. The SSI model is verified by comparing the developed root mean square (RMS) simulation, hardware‐in‐the‐loop (HIL) simulation, and the experiment using SSI hardware. The simulation results show that the SSI has the considerable ability of grid stabilization. Singlephase micro‐grid (SMG) operations using SSIs are also presented. The effectiveness of SMG operations is shown based on laboratory experiments.