电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2013年
7期
109-115
,共7页
颜伟%王芳%唐文左%赵霞%余娟%高强
顏偉%王芳%唐文左%趙霞%餘娟%高彊
안위%왕방%당문좌%조하%여연%고강
无功分区%凝聚的层次聚类算法%灵敏度%电气距离%短路阻抗距离
無功分區%凝聚的層次聚類算法%靈敏度%電氣距離%短路阻抗距離
무공분구%응취적층차취류산법%령민도%전기거리%단로조항거리
network partition%agglomerate hierarchical clustering algorithm%sensitivity%electrical distance%short-circuit impedance distance
基于先电源节点分区后负荷节点映射分区的思想,提出了一种基于电源分区与短路阻抗距离的电压无功分区方法.首先以无功/电压灵敏度来定义电气距离,采用凝聚的层次聚类算法直接对电源节点进行分区.然后定义了多无功源节点对单个负荷节点的短路阻抗距离,并以短路阻抗距离最短原则来实现负荷节点的映射分区.该方法不仅能保证电气距离近的无功源被分在同一个区域,而且还能保证负荷节点与对其控制能力强的多个无功电源节点被分在同一个区域.另外,该方法还具有分区结果与潮流状态无关的优点.IEEE39节点系统和重庆实际电网的仿真结果验证了所提方法的有效性.
基于先電源節點分區後負荷節點映射分區的思想,提齣瞭一種基于電源分區與短路阻抗距離的電壓無功分區方法.首先以無功/電壓靈敏度來定義電氣距離,採用凝聚的層次聚類算法直接對電源節點進行分區.然後定義瞭多無功源節點對單箇負荷節點的短路阻抗距離,併以短路阻抗距離最短原則來實現負荷節點的映射分區.該方法不僅能保證電氣距離近的無功源被分在同一箇區域,而且還能保證負荷節點與對其控製能力彊的多箇無功電源節點被分在同一箇區域.另外,該方法還具有分區結果與潮流狀態無關的優點.IEEE39節點繫統和重慶實際電網的倣真結果驗證瞭所提方法的有效性.
기우선전원절점분구후부하절점영사분구적사상,제출료일충기우전원분구여단로조항거리적전압무공분구방법.수선이무공/전압령민도래정의전기거리,채용응취적층차취류산법직접대전원절점진행분구.연후정의료다무공원절점대단개부하절점적단로조항거리,병이단로조항거리최단원칙래실현부하절점적영사분구.해방법불부능보증전기거리근적무공원피분재동일개구역,이차환능보증부하절점여대기공제능력강적다개무공전원절점피분재동일개구역.령외,해방법환구유분구결과여조류상태무관적우점.IEEE39절점계통화중경실제전망적방진결과험증료소제방법적유효성.
@@@@A novel partitioning method is proposed based on power sources clustering and short-circuit impedance distance, which is characterized by Mvar source nodes partitioning and load nodes mapping. The electrical distance between two Mvar source nodes is defined based on the sensitivity of voltage to reactive power injection, and the agglomerate hierarchical clustering algorithm is applied to partition the Mvar source nodes. Then the short-circuit impedance distance between multiple Mvar source nodes and a single load node is defined, and the mapping between load nodes and Mvar sources partitions is realized by minimizing the short-circuit impedance distances. With the presented method, not only the Mvar source nodes within a short electrical distance from each other, but also the load nodes and the multiple Mvar source nodes having a strong control relation can be clustered into the same partition. The other advantage with the method is that the partition is independent of the power flow state. Simulation results on IEEE39-bus system and the real Chongqing grid data demonstrate the effectiveness of the presented method.