Study on Bird Dropping Flashover Prevention Characteristics of AC Line in Areas Above 4000 m

2022 5th International Conference on Energy, Electrical and Power Engineering (CEEPE) Pub Date : 2022-04-22 DOI:10.1109/CEEPE55110.2022.9783253

Yujian Ding, Jun Zhou, Xiuyuan Yao, Liang Tian, Shengfu Wang, Yu Su

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Abstract

Mastering the bird dropping flashover characteristics of AC transmission line tower clearance in areas above 4,000 m and taking reasonable measures to prevent bird dropping fault are the key to ensure the safe and stable operation of transmission lines in high-altitude areas. For V and I insulator strings of 500 kV line and I insulator strings of 330 kV line commonly used in high-altitude areas, the bird dropping flashover discharge test was carried out under rated operating voltage and highest operating voltage respectively, and flashover probability at different falling positions of bird droppings was obtained. The easy flashover scope of bird droppings on both sides of 3.5 m and 3.0 m of V and I insulator strings of 500 kV line and 2.0 m of I insulator strings of 330 kV line is determined. According to the structural characteristics of tangent towers and tension towers on AC line, the layout scope and measures of bird thorn and thorn plate are put forward. The research results can provide a basis for the bird dropping flashover prevention fault of AC transmission lines in areas above 4,000 m.

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4000m以上地区交流线路防鸟落闪特性研究

掌握4000m以上地区交流输电线路塔间隙落鸟闪络特性，采取合理措施防止落鸟故障，是保证高海拔地区输电线路安全稳定运行的关键。针对高海拔地区常用的500 kV线路的V、I绝缘子串和330 kV线路的I绝缘子串，分别在额定工作电压和最高工作电压下进行鸟粪落闪放电试验，得到鸟粪落在不同位置的闪络概率。确定了500 kV线路V、I绝缘子串3.5 m、3.0 m两侧和330 kV线路I绝缘子串2.0 m两侧鸟粪易闪络范围。根据交流线路切塔和张力塔的结构特点，提出了鸟刺和刺板的布置范围和措施。研究结果可为4000m以上地区交流输电线路的防鸟落闪故障提供依据。

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2022 5th International Conference on Energy, Electrical and Power Engineering (CEEPE)

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