Energies, Vol. 19, Pages 2756: Study on the Discharge Characteristics of Air Under High-Altitude Steep Pulse Voltage with Different Voltage Rise Rates Energies doi: 10.3390/en19122756 Authors: Songwei Li Bo Zhu Hao Zhou Xiangjie Ma In this paper, the influence of voltage change rate on the process of steep pulse air discharge is studied under an environment of 7000 m atmospheric pressure. Six sets of nanosecond pulses with different voltage change rates are used, and the initial and breakdown gaps of the streamer are analyzed by numerical simulation and ICCD imaging. The results show that when the voltage change rate is large, the electric field develops rapidly, which can promote the early formation of the streamer. However, if the effective duration of the pulse is too short and the voltage duration is insufficient, the streamer cannot develop further, and partial breakdown occurs. As the voltage change rate decreases and the pulse width increases, the streamer is more likely to form a through channel, and the discharge penetration time decreases first and then increases. The experimental and simulation results are consistent. In the low-pressure environment, the pulse leading edge variation characteristics are more sensitive to the formation of streamers, which has a reference value for the gap insulation and pulse withstand voltage design of high-altitude electrical equipment.
Energies, Vol. 19, Pages 2756: Study on the Discharge Characteristics of Air Under High-Altitude Steep Pulse Voltage with Different Voltage Rise Rates
