电力系统保护与控制2026,Vol.54Issue(3):35-45,11.DOI:10.19783/j.cnki.pspc.250612
考虑暂态电压安全性与网络拓扑特征的无功电压分区方法
A reactive power-voltage zoning method considering transient voltage security and network topology characteristics
摘要
Abstract
To address transient voltage stability and control issues in AC/DC hybrid power systems,a reactive power-voltage zoning method that integrates transient voltage security and network topological characteristics is proposed.First,transient voltage security indices reflecting voltage recovery capability and time margin during faults are defined,along with short-circuit impedance to characterize system topology.Based on these,a transient voltage characteristic distance and a short-circuit impedance distance are constructed,respectively.Then,two initial zoning schemes are formed according to the two distance measures.Nodes that are assigned to the same zone in both schemes are selected to form independent zones(consensus zones),while nodes that fail to reach consensus form independent zones,thereby yielding an initial zoning scheme that combines both features.Next,an improved hierarchical clustering method is applied to progressively merge highly similar zones in the initial scheme,using the minimum inter-zone transient voltage characteristic distance as the criterion under zoning principle constraints.Finally,the optimal zoning structure is adaptively determined by maximizing the modularity index.The effectiveness of the proposed method is validated through simulations on a modified IEEE 39-bus system.关键词
无功电压分区/暂态电压/短路阻抗/层次聚类/模块度指标Key words
reactive power-voltage zoning/transient voltage/short-circuit impedance/hierarchical clustering/modularity index引用本文复制引用
莫静山,范凯民,胡显文,宋娜,闫广贤,董庆禹..考虑暂态电压安全性与网络拓扑特征的无功电压分区方法[J].电力系统保护与控制,2026,54(3):35-45,11.基金项目
This work is supported by the National Natural Science Foundation of China(No.52307084). 国家自然科学基金项目资助(52307084) (No.52307084)
