The focus of this paper is to present performance indices for unbalance radial feeder having different characteristic and composition of time varying static ZIP load models. These provide a framework for benchmarking ...The focus of this paper is to present performance indices for unbalance radial feeder having different characteristic and composition of time varying static ZIP load models. These provide a framework for benchmarking of distribution automation projects. 15 minutes characteristics time interval for load flow and load modeling are considered to meet smart grid implementation criterion. A forward-backward sweep method is employed for load flow solution. Developed performance indices were illustrated on modified IEEE 37 node test feeder. Performance indices are useful for analysis, operational, planning and integration of stochastic renewable sources.展开更多
研究基于CIM_SVG的电网数据模型基础上的配电线路单线图自动布局算法,给出了一种辐射状单线图自动绘图的完整方案。提出一种馈线分级分支的干线-支路模型,结合CIM_SVG数据模型垂直、水平逐级交叉布置馈线各支线;应用面向对象思想建立一...研究基于CIM_SVG的电网数据模型基础上的配电线路单线图自动布局算法,给出了一种辐射状单线图自动绘图的完整方案。提出一种馈线分级分支的干线-支路模型,结合CIM_SVG数据模型垂直、水平逐级交叉布置馈线各支线;应用面向对象思想建立一种支线图元区域模型,通过模型数据判别图形中的极不对称支线以及重叠或交叉区域,进而根据判别的结果对图形的整体对称化处理以及重叠或交叉区域的消除,最终完成整条馈线的绘制。最后以10 k V辐射状配电馈线为例对算法进行验证,结果表明算法能在数秒内完成典型配电网络布局,适用于更广泛的配电网可视化分析应用。展开更多
文摘The focus of this paper is to present performance indices for unbalance radial feeder having different characteristic and composition of time varying static ZIP load models. These provide a framework for benchmarking of distribution automation projects. 15 minutes characteristics time interval for load flow and load modeling are considered to meet smart grid implementation criterion. A forward-backward sweep method is employed for load flow solution. Developed performance indices were illustrated on modified IEEE 37 node test feeder. Performance indices are useful for analysis, operational, planning and integration of stochastic renewable sources.
文摘研究基于CIM_SVG的电网数据模型基础上的配电线路单线图自动布局算法,给出了一种辐射状单线图自动绘图的完整方案。提出一种馈线分级分支的干线-支路模型,结合CIM_SVG数据模型垂直、水平逐级交叉布置馈线各支线;应用面向对象思想建立一种支线图元区域模型,通过模型数据判别图形中的极不对称支线以及重叠或交叉区域,进而根据判别的结果对图形的整体对称化处理以及重叠或交叉区域的消除,最终完成整条馈线的绘制。最后以10 k V辐射状配电馈线为例对算法进行验证,结果表明算法能在数秒内完成典型配电网络布局,适用于更广泛的配电网可视化分析应用。