结合多状态软开关调控与网络重构的配电网最优故障恢复OA
Optimal Fault Recovery in Distribution Networks with Multi-State SOP Regulation and Network Reconfiguration
[目的]柔性互联配电网遭遇故障停运后,通过软开关(soft open point,SOP)等设备可以快速、合理地进行功率转供或孤岛运行.然而现有研究暂未考虑柔性设备的不同控制状态对恢复结果的影响,常见孤岛预划分方法也难以确定柔性互联设备支撑的孤岛半径和恢复优先级.针对互联设备的可行控制方式,提出了基于SOP等效模型的故障恢复策略.[方法]首先设计含多种控制方式的SOP潮流交替迭代算法,以计算恢复后的功率与电压分布.其次以SOP控制方式选择以及非预设重构为优化手段,以最小化加权运行损失为目标,得到综合考虑潮流约束与多端口SOP模式约束的恢复模型.最后针对寻优范围增加,采用协同图拉普拉斯算子的遗传算法进行求解.基于互联的双IEEE 33系统算例进行了故障后恢复效果验证.[结果]结果表明:针对不同线路停运后的拓扑变动及分布式电源出力情况,所提方法能够形成相应的非预设重构方案,并灵活调整不同位置的SOP控制方式进行协同,负荷恢复比例较重构方式提升14%.[结论]非预设网络重构带来了更高的故障后负荷恢复比例,结合优化SOP的控制状态可取得更优的恢复后电压分布,从而支撑柔性互联配电网的高供电韧性.
[Objective]Following fault-induced outages in flexible interconnected distribution networks,devices such as Soft Open Points(SOPs)can enable rapid and coordinated power rerouting or support islanded operation.However,existing studies overlook the impact of different control states of flexible devices on restoration performance.Moreover,conventional predefined islanding schemes have limited capability in determining the effective support radius and restoration priority enabled by SOP.To address issues related to the feasible control strategies of interconnected devices,this paper proposes a fault restoration strategy based on the equivalent model of the SOP.[Methods]An alternating iterative power flow algorithm is developed to incorporate SOP with multiple control modes and to compute the post-restoration power and voltage distribution.By jointly optimizing SOP control mode selection and non-predefined network reconfiguration,a restoration model is established with the objective of minimizing weighted operational losses,while fully considering power flow constraints and multi-terminal SOP control limitations.To efficiently solve the resulting large-scale optimization problem,a genetic algorithm enhanced with a cooperative graph Laplacian operator is employed for efficient solution.Post-fault restoration performance was evaluated on an interconnected dual IEEE 33-bus test system.[Results]The results demonstrate that,in response to different topological changes and distributed generation outputs after line outages,the proposed method can dynamically generate appropriate non-predefined reconfiguration schemes.It also enables coordinated adjustment of SOP control strategies at different locations.Compared to conventional reconfiguration approaches,the proposed strategy improves the load restoration ratio by 14%.[Conclusions]The non-predefined network reconfiguration contributes to a higher post-fault load restoration ratio.When combined with optimized SOP control states,it yields a more favorable post-restoration voltage profile and supports high supply resilience in flexible interconnected distribution networks.
刘潜;陈谦;徐旸;吴柯汉
河海大学电气与动力工程学院,南京市 211100河海大学电气与动力工程学院,南京市 211100国网盐城供电公司,江苏省 盐城市 224005河海大学电气与动力工程学院,南京市 211100
信息技术与安全科学
柔性互联配电网故障恢复多状态软开关韧性图拉普拉斯算子
flexible interconnected distribution networkfault restorationmulti-state soft open pointresiliencegraph Laplacian operator
《电力建设》 2026 (2)
101-111,11
国家自然科学基金项目(52277088) This work is supported by National Natural Science Foundation of China(No.52277088).
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