Title :
Pulse Repetition Frequency Effect on Nanosecond-Pulse Diffuse Discharge in Atmospheric-Pressure Air With a Point-to-Plane Gap
Author :
Zhang, Cheng ; Shao, Tao ; Niu, Zheng ; Li, Chunxia ; Wang, Ganping ; Tan, Jie ; Yan, Ping
Author_Institution :
Inst. of Electr. Eng., Beijing, China
Abstract :
Diffuse discharge excited by nanosecond-pulse discharge in atmospheric air has a promising application. Unipolar repetitive pulses with 25-ns rise time and 40-ns duration are used to produce the diffuse discharge in a point-to-plane gap in atmospheric air. The effect of pulse repetition frequency (PRF) on the discharge is investigated under two gap spacings. The discharge images show that both the PRF and air gap spacing are responsible for the diffuse discharge mode and the transition to a filamentary discharge.
Keywords :
air; corona; plasma transport processes; Unipolar repetitive pulse; air gap spacing; atmospheric-pressure air; filamentary discharge; nanosecond-pulse diffuse discharge; point-to-plane gap; pulse repetition frequency effect; time 25 ns; time 40 ns; Discharges; Fault location; Generators; Plasmas; Sun; Atmospheric-pressure air; diffuse discharge; filamentary discharge; gap spacing; gas discharge; nanosecond pulse; point-to-plane gap; pulse repetition frequency (PRF);
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2119331
