Effects of Applied Voltage on Branching of Positive Leaders in Laboratory Long Sparks

Changzhi Peng; Zhijun Li; Xuekai Pei; Xiangen Zhao; Gaopeng Lu; Feifan Liu; Yongping Wang; Baoyou Zhu; Yu Zheng; Xuzhu Dong

doi:10.1029/2024GL108804

Geophysical Research Letters (Jun 2024)

Effects of Applied Voltage on Branching of Positive Leaders in Laboratory Long Sparks

Changzhi Peng,
Zhijun Li,
Xuekai Pei,
Xiangen Zhao,
Gaopeng Lu,
Feifan Liu,
Yongping Wang,
Baoyou Zhu,
Yu Zheng,
Xuzhu Dong

Affiliations

Changzhi Peng: School of Electrical Engineering and Automation Wuhan University Wuhan China
Zhijun Li: State Key Laboratory of Power Grid Environmental Protection China Electric Power Research Institute Wuhan China
Xuekai Pei: School of Electrical Engineering and Automation Wuhan University Wuhan China
Xiangen Zhao: Department of Building Environment and Energy Engineering The Hong Kong Polytechnic University Hong Kong China
Gaopeng Lu: School of Earth and Space Sciences University of Science and Technology of China Hefei China
Feifan Liu: School of Earth and Space Sciences University of Science and Technology of China Hefei China
Yongping Wang: MNR Key Laboratory for Polar Science Polar Research Institute of China Shanghai China
Baoyou Zhu: School of Earth and Space Sciences University of Science and Technology of China Hefei China
Yu Zheng: School of Electrical Engineering and Automation Wuhan University Wuhan China
Xuzhu Dong: School of Electrical Engineering and Automation Wuhan University Wuhan China

DOI: https://doi.org/10.1029/2024GL108804
Journal volume & issue: Vol. 51, no. 11
pp. n/a – n/a

Abstract

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Abstract Positive leaders branch less frequently than negative counterpart, and the physical processes and properties of positive leader branching remain a mystery. We investigated 10 m laboratory discharges under four positive voltages using a high‐speed video camera. Positive leaders differ from negative leaders by either directly splitting or connecting with floating bidirectional leaders to form branching, and the number of leader branches shows a positive correlation with the applied voltage, that is, the branched channels increased from 1 to 4 when the voltage increased by a factor of 1.5. Grounding points are positioned beneath the electrode and are more concentrated with lower voltage. During the stable progression of the leader, there is a slight increase in its development speed as the applied voltage rises. When the voltage is increased by 70%, the average breakdown time decreases by 40%. These characteristics provide insights into the branching mechanism of positive leaders.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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