Coordinated Islanding Partition and Scheduling Strategy for Service Restoration of Active Distribution Networks Considering Minimum Sustainable Duration

IF 8.6 1区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Smart Grid Pub Date : 2024-07-25 DOI:10.1109/TSG.2024.3433603

Lei Sun;Han Wang;Zhenghui Huang;Fushuan Wen;Ming Ding

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引用次数: 0

Abstract

This paper presents a coordinated islanding partition and scheduling strategy for service restoration of active distribution networks (ADNs) to maximize weighted restored energy considering the minimum sustainable duration (MSD) of controllable islands (CIs). To avoid the forming of uncontrollable islands, the concept of dominated buses is proposed and integrated into the topological model of ADNs for islanding partition. The co-optimization of mobile distributed generator (MDG) dispatch and dominated bus identification is carried out to accelerate the restoration process. The MSD of CIs is explicitly modeled, and the CIs are scheduled in a risk-adjusted way, whose conservatism can be adjusted by controlling the predefined risk confidence level. Interruptible loads are considered as flexible resources in the islanding partition strategy considering the effects of the MSD of CIs. To improve the practicability of the presented method, time-varying power demands and distributed renewable generation outputs are incorporated into the presented framework. The studied problem is formulated as a mixed-integer second-order cone programming model, which can be efficiently solved by commercial solvers. Finally, a modified version of the Pacific Gas and Electric Company 69-bus distribution system, a practical medium-voltage distribution system in Denmark, and a modified IEEE 123-bus distribution system are employed to demonstrate the performance of the developed model.

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考虑最短可持续时间的主动配电网服务恢复协调孤岛分区和调度策略

本文提出了一种用于主动配电网（ADN）服务恢复的协调孤岛划分和调度策略，以在考虑可控孤岛（CI）最小持续时间（MSD）的情况下最大化加权恢复能量。为避免形成不可控孤岛，提出了受支配总线的概念，并将其集成到 ADN 的拓扑模型中进行孤岛分区。对移动分布式发电机（MDG）调度和受控母线识别进行了共同优化，以加速恢复过程。对 CI 的 MSD 进行了明确建模，并以风险调整的方式对 CI 进行调度，其保守程度可通过控制预定义的风险置信度进行调整。考虑到 CI 的 MSD 影响，在孤岛分区策略中将可中断负荷视为灵活资源。为提高所提方法的实用性，在所提框架中纳入了时变电力需求和分布式可再生能源发电输出。所研究的问题被表述为一个混合整数二阶圆锥编程模型，可通过商业求解器高效求解。最后，我们采用了太平洋天然气电力公司 69 总线配电系统的改进版、丹麦的实用中压配电系统以及 IEEE 123 总线配电系统的改进版，以证明所开发模型的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Smart Grid ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

22.10

自引率

9.40%

发文量

526

审稿时长

6 months

期刊介绍： The IEEE Transactions on Smart Grid is a multidisciplinary journal that focuses on research and development in the field of smart grid technology. It covers various aspects of the smart grid, including energy networks, prosumers (consumers who also produce energy), electric transportation, distributed energy resources, and communications. The journal also addresses the integration of microgrids and active distribution networks with transmission systems. It publishes original research on smart grid theories and principles, including technologies and systems for demand response, Advance Metering Infrastructure, cyber-physical systems, multi-energy systems, transactive energy, data analytics, and electric vehicle integration. Additionally, the journal considers surveys of existing work on the smart grid that propose new perspectives on the history and future of intelligent and active grids.