基于映射分区的无功电压控制分区算法  被引量:44

Network Partitioning for Reactive Power/Voltage Control Based on a Mapping Division Algorithm

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作  者:赵晋泉[1] 刘傅成[1] 邓勇[2] 李可文[2] 方朝雄[2] 黄文英[2] 

机构地区:[1]河海大学能源与电气学院,江苏省南京市210098 [2]福建省电力调度通信中心,福建省福州市350000

出  处:《电力系统自动化》2010年第7期36-39,56,共5页Automation of Electric Power Systems

基  金:国家自然科学基金资助项目(50607003)~~

摘  要:在应用传统聚类算法对电网进行无功电压控制分区时,存在可伸缩性不强的缺点,且分区结果难以保证被控节点与对它控制最灵敏的无功源节点属于同一个分区。文中提出一种基于映射分区的无功电压控制分区算法,首先在电气距离的基础上通过凝聚的层次聚类算法得出最优分区数和无功源节点所在的分区号,然后通过映射分区算法确定被控节点的分区。该方法不依赖于状态估计结果,而仅基于网络的拓扑结构和参数。应用所述方法分别对IEEE 39节点、IEEE 118节点系统和福建电网进行了分析计算,分区结果表明该方法可以保证被控节点与对它控制最灵敏的无功源节点属于同一个分区,计算速度快,占用内存小。When traditional clustering algorithms are used to partition a network for reactive power/voltage control,there are shortcomings in scalability and it's difficult for the outcome of partition to guarantee that the controlled nodes and the corresponding reactive power source nodes are partitioned into the same area.A mapping-based partitioning algorithm for reactive power/voltage control is proposed.First of all,on the basis of the electrical distance,the cohesion of a hierarchical clustering algorithm is used to obtain the optimal number of areas and the area of reactive power source nodes.Then the mapping partition algorithm is used to determine the areas of the controlled nodes.Rather than depend on the state estimation,the method proposed is only based on real time network topology and parameters.The numerical results concerning on IEEE 39-bus,IEEE 118-bus system and Fujian Power Grid respectively show that the controlled nodes and reactive power source nodes that control them are mostly partitioned into the same area by using the algorithm proposed.

关 键 词:无功电压分区 灵敏度 电气距离 映射分区 二级电压控制 

分 类 号:TM761.1[电气工程—电力系统及自动化]

 

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