This paper proposes a holistic framework for parameter coordination of a power electronic-interfaced microgrid interconnection against natural disasters. The paper identifies a transient stability issue in a microgrid interconnection. Based on recent advances in control theory, we design a framework that can systematically coordinate system parameters, such that post-disaster equilibrium points of microgrid interconnections are asymptotically stable. The core of the framework is a stability assessment algorithm using sum of squares programming. The efficacy of the proposed framework is tested in a four-microgrid interconnection. The proposed framework has potential to extend to microgrid interconnections with a wide range of hierarchical control schemes.
@article{arxiv.2006.13840,
title = {A Holistic Framework for Parameter Coordination of Interconnected Microgrids against Disasters},
author = {Tong Huang and Hongbo Sun and Kyeong Jin Kim and Daniel Nikovski and Le Xie},
journal= {arXiv preprint arXiv:2006.13840},
year = {2020}
}
Comments
This paper has been accepted by IEEE PES General Meeting 2020