电力自动化设备
電力自動化設備
전력자동화설비
ELECTRIC POWER AUTOMATION EQUIPMENT
2008年
3期
5-9
,共5页
电压稳定%同步相量测量%电压稳定指标
電壓穩定%同步相量測量%電壓穩定指標
전압은정%동보상량측량%전압은정지표
voltage stability%synchronized phasor measurement%voltage stability index
针对输电网提出了一种基于同步相量测量信息的电压稳定指标.电力系统可以分解成许多电能传输路径.以传输路径首节点电压与末节点电压在首节点电压上的投影之差与首节点电压的比值作为计算电压稳定与否的指标.该指标根据最弱电能传输路径利用局部电压相量测量信息直接计算得出,避免了复杂的潮流计算.局部电压相量测量数据由相量测量单元PMU提供.基于一种快速有效的PMU配置方法.利用直接测量或间接计算的数据作为此稳定指标计算所需要的电压相量信息.运用图论的基本思想寻找电能最弱传输路径.通过计算电能最弱传输路径的电压稳定指标和系统无功储备情况判断系统电压稳定度,当系统接近不稳定状态时,最弱传输路径的电压稳定指标值趋向于临界值0.5.在IEEE 5节点和IEEE 30节点系统上的仿真表明了该指标预测系统电压崩溃的有效性和正确性.
針對輸電網提齣瞭一種基于同步相量測量信息的電壓穩定指標.電力繫統可以分解成許多電能傳輸路徑.以傳輸路徑首節點電壓與末節點電壓在首節點電壓上的投影之差與首節點電壓的比值作為計算電壓穩定與否的指標.該指標根據最弱電能傳輸路徑利用跼部電壓相量測量信息直接計算得齣,避免瞭複雜的潮流計算.跼部電壓相量測量數據由相量測量單元PMU提供.基于一種快速有效的PMU配置方法.利用直接測量或間接計算的數據作為此穩定指標計算所需要的電壓相量信息.運用圖論的基本思想尋找電能最弱傳輸路徑.通過計算電能最弱傳輸路徑的電壓穩定指標和繫統無功儲備情況判斷繫統電壓穩定度,噹繫統接近不穩定狀態時,最弱傳輸路徑的電壓穩定指標值趨嚮于臨界值0.5.在IEEE 5節點和IEEE 30節點繫統上的倣真錶明瞭該指標預測繫統電壓崩潰的有效性和正確性.
침대수전망제출료일충기우동보상량측량신식적전압은정지표.전력계통가이분해성허다전능전수로경.이전수로경수절점전압여말절점전압재수절점전압상적투영지차여수절점전압적비치작위계산전압은정여부적지표.해지표근거최약전능전수로경이용국부전압상량측량신식직접계산득출,피면료복잡적조류계산.국부전압상량측량수거유상량측량단원PMU제공.기우일충쾌속유효적PMU배치방법.이용직접측량혹간접계산적수거작위차은정지표계산소수요적전압상량신식.운용도론적기본사상심조전능최약전수로경.통과계산전능최약전수로경적전압은정지표화계통무공저비정황판단계통전압은정도,당계통접근불은정상태시,최약전수로경적전압은정지표치추향우림계치0.5.재IEEE 5절점화IEEE 30절점계통상적방진표명료해지표예측계통전압붕궤적유효성화정학성.
A voltage stability index based on synchronized phasor measurements is presented for transmission systems.Power system can be decoupled into several power transmission paths.The ratio of the voltage-drop projection on the start node voltage in a transmission path to the start node voltage is taken as the voltage stability index of power system.which is calculated directly with the loeal vohage phasor information and the weakest transmission path.the complex power flow calculation being thus avoided.Based on a fast and effective PMU(Phasor Measurement Unit)placement.phasor information is provided by direct measurement or indirect calculation of PMUs.The weakest transmission path is determined by the graph theory.By calculating the index value of the weakest transmission path,which approaches to 0.5 when system is prone to voltage collapse,and considering the power system reactive power reserve,the voltage stability can be assessed.Simulation results of IEEE 5-bus and IEEE 30-bus networks show its validity in system collapse prediction.
