【摘 要】
:
本文对单回路导线表面电场弓剧度的简化计算、交流输电线路电晕损失估算法、《电力工程高压送电线路设计手册》计算法、《电力网电能电能损耗计算法则(DL/T 686-1999)》计算
【机 构】
:
云南恒安电力工程有限公司,云南省昆明市650011
【出 处】
:
中国电机工程学会电磁干扰专业委员会高海拔地区输变电工程电磁环境专题研讨会
论文部分内容阅读
本文对单回路导线表面电场弓剧度的简化计算、交流输电线路电晕损失估算法、《电力工程高压送电线路设计手册》计算法、《电力网电能电能损耗计算法则(DL/T 686-1999)》计算法、博纳维尔电力管理局(BPA)计算法进行了分析、比较,对电晕损失海拔修正进行了进一步论述。最后建议采用美国博纳维尔电力管理局(BPA)输电线路电晕损耗估算方法,并且建议调整BPA公式的海拔修正方法,即,海拔小于3000m时,按BPA公式,采用线性修正;海拔大于等于3000m时,参考高海拔试验成果,采用非线性修正.
其他文献
Graphene has unique electronic properties that arise from its 2D honeycomb structure and which cause novel behavior at the atomic scale.This can be seen in
I will discuss recent development in scaling down photonics.First I will present theoretical and experimental investigation of passive low loss waveguide us
目录1磁悬浮中央空调①高温出水冷机的设计挑战与机遇②海尔磁悬高温冷机技术和特点2节能解决方案①应用行业与设计注意事项②节能工程案例运行工况差异名义制冷工况部分负荷
工程简介概况:总建筑面积为15616m2,其中地下建筑面积为5279m2,共有地上2层、地下1层.地上一层的主要功能为候车大厅、售票厅、出站厅、行李托运、商业用房等,二层的主要功能
Learning from the concepts used by green plants photosynthesis, we have developed nanostructured systems affording efficient solar light harvesting and conv
A modular approach is introduced which utilizes benzene as key building block for the construction of one-dimensional (1D) and three-dimensional (3D) polyph
Carbon nanotubes, which were first discovered by Iijima in the early 1990s, have been attracting tremendous interest.[1a] With appropriate condition control
Developing wireless nanodevices and nanosystems is of critical importance for sensing, medical science, environmental / infrastructure monitoring, defense t
For future electronics applications of graphene,a key challenge is to make it semiconducting.One approach to opening a band gap in graphene is to reduce the
Most people think of graphene as a fiat membrane and the quality of physics observation depends on the flatness of it.However defective or strained graphene