Abstract
With the frequent occurrence of extreme weather, the resilience of distribution system (DS) has become a hot research topic in recent years. In this article, a novel resilience improvement approach is proposed, the multi-stage restoration process is taken into account to enhance the resilience of DS, and the active islanding and separable mobile energy storage system-based service restoration are comprehensively taken into account to enhance the resilience of DS. The multi-stage restoration process is modeled in detail, consisting of the topology and operational constraints of each stage, and they are multi influenced each other. The model is formulated as a mixed-integer linear programming problem. Case studies on the IEEE 33-bus system prove that the proposed method can improve the resilience of the DS effectively.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Wang Y, Chen C, Wang J et al (2016) Research on resilience of power systems under natural disasters—A review. IEEE Trans Power Syst 31(2):1604–1613
Ti B, Li G et al (2022) Resilience assessment and improvement for cyber-physical power systems under typhoon disasters. IEEE Trans Smart Grid 13(1):783–794
Farzin H, Fotuhi-Firuzabad M, Moeini-Aghtaie M (2016) Enhancing power system resilience through hierarchical outage management in multi-microgrids. IEEE Trans Smart Grid 7(6):2869–2879
Zhang H, Ma S, Ding T et al (2021) Multi-stage multi-zone defender-attacker-defender model for optimal resilience strategy with distribution line hardening and energy storage system deployment. IEEE Trans Smart Grid 12(2):1194–1205
Li Z, Shahidehpour M, Wang X et al (2019) Robust line hardening strategies for improving the resilience of distribution systems with variable renewable resources. IEEE Trans Sustain Energy 10(1):386–395
Liu X, Hou K, Jia H et al (2020) A planning-oriented resilience assessment framework for transmission systems under Typhoon disasters. IEEE Trans Smart Grid 11(6):5431–5441
Kim J, Dvorkin Y (2019) Enhancing distribution system resilience with mobile energy storage and microgrids. IEEE Trans Smart Grid 10(5):4996–5006
Lei S, Wang J, Chen C et al (2018) Mobile emergency generator pre-positioning and real-time allocation for resilient response to natural disasters. IEEE Trans Smart Grid 9(3):2030–2041
Ahmed MI, Kumar R et al (2022) Nodal electricity price based optimal size and location of DGs in electrical distribution networks using ANT LION optimization algorithm. Distributed generation. Altern Energy J 38(1):111–140
Gholami A, Shekari T, Aminifar F et al (2016) Microgrid scheduling with uncertainty: the quest for resilience. IEEE Trans Smart Grid 7(6):2849–2858
Amirioun MH, Aminifar F, Lesani H (2018) Resilience-oriented proactive management of microgrids against windstorms. IEEE Trans Power Syst 33(4):4275–4284
Amirioun MH, Aminifar F, Lesani H (2018) Towards proactive scheduling of microgrids against extreme floods. IEEE Trans Smart Grid 9(4):3900–3902
Wang Z, Shen C, Xu Y et al (2019) Risk-limiting load restoration for resilience enhancement with intermittent energy resources. IEEE Trans Smart Grid 10(3):2507–2522
Yao S, Wang P, Liu X et al (2020) Rolling optimization of mobile energy storage fleets for resilient service restoration. IEEE Trans Smart Grid 11(2):1030–1043
Yao S, Peng W, Zhao T (2019) Transportable energy storage for more resilient distribution systems with multiple microgrids. IEEE Trans Smart Grid 10(3):3331–3341
Lei S, Chen C, Li Y et al (2019) Resilient disaster recovery logistics of distribution systems: co-optimize service restoration with repair crew and mobile power source dispatch. IEEE Trans Smart Grid 10(6):6187–6202
Nazemi M, Dehghanian P, Lu X et al (2021) Uncertainty-aware deployment of mobile energy storage systems for distribution grid resilience. IEEE Trans Smart Grid 12(4):3200–3214
Wang W, Xiong X, He Y et al (2022) Scheduling of separable mobile energy storage systems with mobile generators and fuel tankers to boost distribution system resilience. IEEE Trans Smart Grid 13(1):443–457
Mohammad S, Che L (2019) Adaptive formation of microgrids with mobile emergency resources for critical service restoration in extreme conditions. IEEE Trans Power Syst 34(1):742–753
Pandey HW, Kumar R, Mandal RK (2022) Transformation of Indian distribution sector: opportunity and challenges for unlocking the demand response potential. Renew Energy Focus 42(9):221–235
Liu J, Qin C, Yu Y (2020) Enhancing distribution system resilience with proactive islanding and RCS-Based fast fault isolation and service restoration. IEEE Trans Smart Grid 11(3):2381–2395
Liu J, Qin C, Yu Y (2021) A comprehensive resilience-oriented FLISR method for distribution systems. IEEE Trans Smart Grid 12(3):2136–2152
Wang Y, Xu Y, He J et al (2019) Coordinating multiple sources for service restoration to enhance resilience of distribution systems. IEEE Trans Smart Grid 10(5):5781–5793
Acknowledgements
This work was supported by the National Natural Science Foundation of China under Grant 52177098.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Zhao, J., Liu, S., Li, Z. et al. Enhancing Distribution System Resilience with Active Islanding and Separable Mobile Energy Storage System. J. Electr. Eng. Technol. 19, 147–159 (2024). https://doi.org/10.1007/s42835-023-01548-2
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s42835-023-01548-2