用均匀接地模型计算雷击电压

J. Paulino, Wallace Do C. Boaventura, Ivan Jose Da S. Lopes, Celio Fonseca Barbosa
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引用次数: 2

摘要

架空和地下线路上的雷击感应电压取决于地面电阻率。大多数计算方法都是将地面视为均匀介质而发展起来的。然而,如果将实际地面分层成不同电阻率值的水平层,则可以更好地表示实际地面。本文提出了在雷击电压计算中,用一种简化的表达式来计算能代表两层分层地的均匀地的等效电阻率。通过将具有等效电阻率值的均匀地层的结果与双层地层的结果进行对比分析。结果表明,在所考虑的参数范围内,感应电压峰值的绝对平均值和最大误差分别为2.9%和8.2%。利用等效电阻率,建立了均匀接地的峰值公式,可用于计算两层以上接地线路的雷击电压。
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On the use of homogeneous ground model for lightning-induced voltage calculation
Lightning induced voltages on aerial and underground lines depend on the ground resistivity. Most calculating methodologies were developed considering the ground as a homogeneous medium. However, actual ground is better represented if stratified into horizontal layers of different resistivity values. This paper proposes the use of a simplified expression for the calculation of the equivalent resistivity of a uniform ground that can represent a two-layer stratified ground in lightning induced voltage calculations. The analysis is made by comparing the results from a homogeneous ground having the equivalent resistivity value with results from two-layer ground. It is shown that, for the range of parameters considered, the absolute average and maximum errors on the induced voltage peak values are 2.9% and 8.2%, respectively. It is also shown that, with the equivalent resistivity, a peak-value formula developed for uniform ground could be used for the calculation of lightning induced voltages on lines above two-layer ground.
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