Unified power quality conditioner(UPQC)holds the capability of solving power quality problems,especially shows good performance in the voltage sag compensation. In this paper, a compensation strategy based on simultan...Unified power quality conditioner(UPQC)holds the capability of solving power quality problems,especially shows good performance in the voltage sag compensation. In this paper, a compensation strategy based on simultaneous reactive power injection for UPQC(namely UPQC-SRI) is proposed to address the issue of voltage sag. The proposed UPQC-SRI determines the injection angle of compensation voltage with consideration of optimal configuration of UPQC current-carrying.Moreover, the compensation strategy also considers the current-carrying limit of UPQC, and then the zero active power injection region of UPQC-SRI(also called UPQCSRI region) is obtained. Under the conditions which exceed the UPQC-SRI region, the limit value of shunt current is determined by this proposed strategy. Finally, the proposed strategy and the corresponding algorithm are verified under the PSCAD/EMTDC platform. The result indicates the proposed UPQC-SRI strategy in this paper can provide more persistent voltage sag compensation than the previous strategies for the sensitive load.展开更多
零注入节点功率失配量对电力系统安全评估有着重要影响,为减小零注入节点的功率失配量,提出了考虑零注入约束的双线性WLAV(Weighted Least Absolute Value)状态估计方法,该方法将零注入约束以等式约束的形式添加到双线性WLAV状态估计中...零注入节点功率失配量对电力系统安全评估有着重要影响,为减小零注入节点的功率失配量,提出了考虑零注入约束的双线性WLAV(Weighted Least Absolute Value)状态估计方法,该方法将零注入约束以等式约束的形式添加到双线性WLAV状态估计中。基于IEEE标准系统,采用零注入约束的双线性WLAV状态估计方法对国内某省网进行仿真,结果表明:该方法既能保留基于内点法的双线性WLAV状态估计原有的计算效率高的优点,又能减小零注入节点的功率失配量,且抗差性能有一定程度的提升。展开更多
基金supported by the twelfth five-year National Mega-projects of Science and Technology (2011BAA01B03)
文摘Unified power quality conditioner(UPQC)holds the capability of solving power quality problems,especially shows good performance in the voltage sag compensation. In this paper, a compensation strategy based on simultaneous reactive power injection for UPQC(namely UPQC-SRI) is proposed to address the issue of voltage sag. The proposed UPQC-SRI determines the injection angle of compensation voltage with consideration of optimal configuration of UPQC current-carrying.Moreover, the compensation strategy also considers the current-carrying limit of UPQC, and then the zero active power injection region of UPQC-SRI(also called UPQCSRI region) is obtained. Under the conditions which exceed the UPQC-SRI region, the limit value of shunt current is determined by this proposed strategy. Finally, the proposed strategy and the corresponding algorithm are verified under the PSCAD/EMTDC platform. The result indicates the proposed UPQC-SRI strategy in this paper can provide more persistent voltage sag compensation than the previous strategies for the sensitive load.
文摘零注入节点功率失配量对电力系统安全评估有着重要影响,为减小零注入节点的功率失配量,提出了考虑零注入约束的双线性WLAV(Weighted Least Absolute Value)状态估计方法,该方法将零注入约束以等式约束的形式添加到双线性WLAV状态估计中。基于IEEE标准系统,采用零注入约束的双线性WLAV状态估计方法对国内某省网进行仿真,结果表明:该方法既能保留基于内点法的双线性WLAV状态估计原有的计算效率高的优点,又能减小零注入节点的功率失配量,且抗差性能有一定程度的提升。