Development Characteristics of Sphere-plane Gap Leader Discharge Channels at Different Altitudes

FANG Yaqi; MAO Suhan; YANG Bingsen; FANG Junkang; ZENG Hao; TIAN Shuangshuang

doi:10.13336/j.1003-6520.hve.20241369

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Development Characteristics of Sphere-plane Gap Leader Discharge Channels at Different Altitudes

更新时间：2026-01-09

- Development Characteristics of Sphere-plane Gap Leader Discharge Channels at Different Altitudes
- Vol. 51, Issue 6, Pages: 3089-3099(2025)
- 作者机构：
  
  湖北工业大学新能源及电网装备安全监测湖北省工程研究中心,武汉,430068
- 作者简介：
- 基金信息：
- DOI：10.13336/j.1003-6520.hve.20241369
  CLC：
- Published：2025
- 稿件说明：
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FANG Yaqi, MAO Suhan, YANG Bingsen, et al. Development Characteristics of Sphere-plane Gap Leader Discharge Channels at Different Altitudes[J]. 2025, 51(6): 3089-3099.
DOI：

FANG Yaqi, MAO Suhan, YANG Bingsen, et al. Development Characteristics of Sphere-plane Gap Leader Discharge Channels at Different Altitudes[J]. 2025, 51(6): 3089-3099. DOI： 10.13336/j.1003-6520.hve.20241369.

摘要

气压及电场等因素导致的空气间隙放电特性变化是输变电设备外绝缘必须考虑的问题，研究不同海拔球-板间隙放电通道发展特性可为极端环境下输变电设备外绝缘设计提供依据。在武汉(海拔20 m)和昆明(海拔2100 m)地区开展了直径30~110 cm的球-板间隙操作冲击试验，研究了放电通道先导发展速度、发展形态特性与球电极尺寸及气压的关系。研究结果表明：放电通道先导发展速度随球直径增加而增加并出现饱和趋势，随海拔高度增加而降低，当海拔高度由20 m上升至2 100 m时，不同直径球电极的先导速度降低约12.4%~15.4%；放电通道先导头部流注长度随球直径和海拔高度的增加而增加；对于先导通道形态及发展特征，随着球电极直径的增加，先导通道发生偏转的位置逐渐靠近电极底部；随着海拔高度的增加，靠近电极底部的先导通道偏转角度减小，且随着海拔高度增加，先导通道弯折频次明显降低；先导分支数量随球电极直径增加而增加，随海拔高度的增加而降低，高海拔先导分支数量比低海拔降低约26.7%~47.2%。最后基于放电通道分形模型分析得到，球电极直径增加使得空间电场更为均匀，放电通道分形维数增加，而当气压降低时，气体密度变小，放电通道分形维数降低。

Abstract

Change of air gap discharge characteristics caused by factors such as air pressure and electric field is a problem that must be considered in the external insulation of power transmission and transformation equipment. Studying the development characteristics of sphere-plane gap discharge channels at different altitudes can provide a basis for the external insulation design of power transmission and transformation equipment in extreme environments. In this paper

a sphere-plane gap switching impulse test with a diameter of 30~110 cm was carried out in Wuhan (altitude 20 m) and Kunming (altitude 2 100 m)

and the relationship between the leader development speed and development characteristics of the discharge channel and the size and pressure of the spherical electrode was studied. The results show that the leader velocity of the discharge channel increases and becomes saturated with the increase of the sphere diameter

and decreases with the increase of the altitude. When the altitude increases from 20 m to 2100 m

the leader velocity of the spherical electrode with different diameters decreases by about 12.4%~15.4%. The streamer length of the leader head of the discharge channel increases with the increase of sphere diameter and altitude. As for the morphology and development characteristics of the leader channel

with the increase of the diameter of the spherical electrode

the deflection position of the leader channel is gradually closer to the bottom of the electrode. The deflection angle of the leader channel near the bottom of the electrode decreases with the increase of altitude

and the bending frequency of the leader channel decreases obviously with the increase of altitude. The number of leader branches increases with the increase of spherical electrode diameter and decreases with the increase of altitude. The number of leader branches at high altitude is decreased by 26.7%~47.2% compared with that at low altitude. Finally

based on the fractal model analysis of discharge channel

the increase of spherical electrode diameter makes the spatial electric field more uniform and the fractal dimension of discharge channel increases

while the decrease of gas pressure leads to the decrease of gas density and the fractal dimension of discharge channel.

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