Discharge characteristics of leader inception and development under 10 m long air gap—experimental observation and simulation results

The physical mechanism of leader formation and development is not well understood. In this study, we present experimental and simulation results obtained with a 10 m long air gap discharge. A 10 m outdoor discharge experiment is carried out to obtain the current, voltage, and optical image during th...

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Bibliographic Details
Published in:High voltage 2023-12, Vol.8 (6), p.1151-1160
Main Authors: Peng, Changzhi, Dong, Xuzhu, Zhao, Yanpu, Li, Zhijun, Zheng, Yu, Pei, Xuekai, Liu, Lei, Luo, Bing
Format: Article
Language:English
Subjects:
Air gaps
Cameras
Chemical reactions
Discharge
Electric fields
Electric potential
Electrodes
Electron density
Leader currents
Plasma
Voltage
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Summary:The physical mechanism of leader formation and development is not well understood. In this study, we present experimental and simulation results obtained with a 10 m long air gap discharge. A 10 m outdoor discharge experiment is carried out to obtain the current, voltage, and optical image during the leader discharge process. Four different impulse voltages were applied to the rod‐plane gap. The measured current is used as an input for a plasma model, then the temperature and electric field could be calculated. The simulation results show that the temperature of the streamer stem during the dark period may exceed 2000 K. In addition, the critical charge required for leader initiation can be as low as 0.27 μC for a 10 m air gap. The channel temperature is relatively stable in the process of leader development, which is maintained at about 4500 K. The electron density is about 0.5–3 × 1020 m−3, and the discharge channel conductivity fluctuates in the range of 1–10 S/m for the leader current between 1 and 2 A. A long dark period is tended to be associated with a higher injected charge by the first streamer. It is inferred that the voltage increments during the dark period play an important role in promoting streamer‐to‐leader transition, except for temperature and the injected charge.
ISSN:2397-7264
2397-7264
DOI:10.1049/hve2.12288