复杂地形地区输电线路屏蔽失效闪络次数的计算方法

Qing-zhou Zhao, Qing Yang, Hao-yuan Zheng, W. Sima, T. Yuan, Jianbiao Li
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引用次数: 1

摘要

输电线路屏蔽失效闪络率的计算常用调节法、EGM法和LPM法,导体和地线的高度通常用平均高度表示,地形特征通常用地倾角表示。当实际线路参数超出有效计算条件的范围时,传统方法无法反映凹陷和线路走廊复杂地形区域的影响。近年来,有学者提出选择一个线跨的多个切平面,然后计算每个切平面的屏蔽失效闪络率,以反映线跨的防雷性能,但计算每个切平面的接地倾斜度比较复杂。提出了一种基于电几何模型(EGM)计算复杂地形地区屏蔽失效闪络次数的新方法,该方法考虑了线路走廊的微地形以及接地线、导线线与地面之间的相对位置,以线跨为研究对象,通过计算导线暴露面水平投影面积得到线跨的屏蔽失效闪络次数。以某500kV复杂地形地区的输电线路为例,计算结果表明,采用该方法可以简单准确地获得线路跨距的防雷性能,并能较好地反映线路走廊复杂地形地区的影响,为防雷差异化技术和策略提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Method of calculating shielding failure flashover times of transmission line in complex terrain area
Calculating shielding failure flashover rate of transmission line with regulation method, EGM method and LPM method, the height of conductor and ground wire are often expressed by average height, the terrain feature are often expressed by ground obliquity. If the actual line parameters are beyond the scope of the effective calculation conditions, traditional methods can't reflect the influence of sag and line corridor's complex terrain area. In recent years, some scholars put forward to select multiple tangent planes of a line span, then calculated the shielding failure flashover rates of every tangent planes to reflect the line span's lightning protection performance, but it was complicated to get the ground obliquities of every tangent planes. A new approach for calculating shielding failure flashover times in complex terrain area was presented, which was based on the electro-geometric model (EGM), the new method considered of the line corridor's micro-topography and the relative position among the ground wire, the conductor wire and the ground, a line span was taken as the research object, got the shielding failure flashover times of the line span through calculating the conductor exposed surface's horizontally-projected area. A 500kV transmission line in complex terrain area was taken as an example, the calculation results shown that using this method can obtain a line span's lightning protection performance simple and exactly, and reflect the influence of line corridor's complex terrain area better, which also provide a reference for differentiation technology and strategy of lightning protection.
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