This paper proposes an emergency power supply restoration strategy for a distribution network that considers the operational risk of an islanded microgrid in response to the issues of voltage exceeding limits and power imbalance faced during their operation. Firstly, a distribution network emergency power supply restoration model supported by a generalized dynamic islanded microgrid is constructed. By equating the alternate tie line with a virtual distributed generator (DG), the integrated power supply restoration problem of distribution network is transformed into a generalized island power distribution network division problem based on DGs. Then, the risk of islanded microgrid operation is considered and restricted by chance constraints. Finally, simulation results based on the improved IEEE-33 node distribution network show that, compared to the generalized island partitioning strategy which ignores operational risks, the proposed strategy increases the power supply restoration rate from 83.4% to 97.8% while successfully ensuring the stability of all islanded microgrids under the specified confidence level for operational risk.
Zuo et al. (Thu,) studied this question.