AC Breakdown Characteristics of Overhead Transmission Line Phase-ground Long Air Gap Under Vegetation Fire Conditions

HUANG Daochun; ZHOU Shuolun; WANG Huaqing; ZHOU Enze; BI Jiyu; PENG Tianhao

doi:10.13334/j.0258-8013.pcsee.240483

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AC Breakdown Characteristics of Overhead Transmission Line Phase-ground Long Air Gap Under Vegetation Fire Conditions

更新时间：2026-01-08

- AC Breakdown Characteristics of Overhead Transmission Line Phase-ground Long Air Gap Under Vegetation Fire Conditions
- Vol. 45, Issue 15, Pages: 6129-6139(2025)
- 作者机构：
  
  1. 武汉大学电气与自动化学院,湖北省,武汉市,430072
  2. 广东电网有限责任公司电力科学研究院,广东省,广州市,510080
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.240483
  CLC：
- Published：2025
- 稿件说明：
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HUANG Daochun, ZHOU Shuolun, WANG Huaqing, et al. AC Breakdown Characteristics of Overhead Transmission Line Phase-ground Long Air Gap Under Vegetation Fire Conditions[J]. 2025, 45(15): 6129-6139.
DOI：

HUANG Daochun, ZHOU Shuolun, WANG Huaqing, et al. AC Breakdown Characteristics of Overhead Transmission Line Phase-ground Long Air Gap Under Vegetation Fire Conditions[J]. 2025, 45(15): 6129-6139. DOI： 10.13334/j.0258-8013.pcsee.240483.

摘要

为给山火条件下架空输电线路相-地空气间隙短路击穿风险评估提供支撑，搭建模拟山火条件下架空线路相-地空气间隙击穿试验平台，考虑植被种类、植被密度、植被湿度、烟雾、导线分裂数、间隙距离、海拔7类因素，开展1.2~9 m空气间隙交流击穿特性试验。结果表明：以杉木为基准，松木、桉木、灌木、茅草的平均击穿电压梯度的修正系数分别为1.13、0.96、0.93、0.88；火焰区的平均击穿电压梯度受植被垛湿度影响显著，且成线性相关系数为0.999 8的正相关；烟雾区中温度对间隙击穿的影响要大于烟雾颗粒的影响，在尽可能避免温度影响的情况下，纯烟雾对间隙绝缘水平降低的程度可达16%；70%火焰桥接比例下的4~9 m间隙试验中，非火焰区平均击穿电压梯度和非火焰区长度具有线性关系；植被火间隙击穿电压随海拔高度变化程度明显低于纯空气间隙，海拔因素对间隙击穿特性的影响主要在烟雾区和植被燃烧情况这2个部分。

Abstract

To support risk assessment of phase-to-ground gap short-circuit breakdowns in overhead transmission lines under wildfire conditions

this paper establishes a test platform for long air gap breakdown under simulated wildfires. The platform is used to investigate AC breakdown characteristics across 1.2~9 m gaps

evaluating seven parameters: vegetation type

density

and humidity; smoke concentration; bundle sub-conductor count; gap distance; and altitude. The results show that using fir as a reference

the correction coefficients for the average breakdown voltage gradients of pine

eucalyptus

shrub

and thatch are 1.13

0.96

0.93

and 0.88

respectively; the average breakdown voltage gradient in the flame zone is significantly affected by vegetation humidity

showing a strong positive correlation with a linear correlation coefficient of 0.9998. In the smoke zone

the effect of temperature on gap breakdown is greater than the effect of smoke particles

and the degree of reduction in the level of gap insulation by pure smoke can be taken as 16% when the temperature effect is avoided as much as possible. The average breakdown voltage gradient in the non-flame zone and the length of the non-flame zone have a linear relationship in the 4~9 m gap test at 70% flame bridging ratio. Vegetation fire gap breakdown voltage changes significantly less with altitude than that of pure air gaps

and the influence of altitude on gap breakdown characteristics primarily manifests through two factors: smoke zone properties and vegetation fire combustion behavior.

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