Title :
Impulse partial discharge and breakdown characteristics of rod-plane gaps in N2/SF6 gas mixtures
Author :
Saitoh, H. ; Morita, K. ; Kikkawa, T. ; Hayakawa, N. ; Okubo, H.
Author_Institution :
Numazu Eng. & Product Div., Japan AE Power Syst. Corp., Shizuoka, Japan
fDate :
8/1/2002 12:00:00 AM
Abstract :
Impulse partial discharge (PD) and breakdown (BD) characteristics of rod-plane gaps in N2/SF6 gas mixtures were investigated for different gap geometry, gas pressure and SF6 gas content. Experimental results revealed that the 50% probability breakdown voltage increased with gas pressure, which agreed with the theoretical values with consideration of discharge time lag for impulse voltage application. For the calculation of discharge inception voltage, the volume-time theory was successfully applied to the N2/SF6 gas mixture. Furthermore, impulse PD light emission image was observed together with PD current pulse and light intensity waveforms. The long discharge with stepwise propagation and double-peak PD pulses could be observed, which corresponded to the streamer/leader transition leading to breakdown.
Keywords :
SF6 insulation; electron detachment; gas insulated switchgear; gas mixtures; nitrogen; partial discharges; N2; N2-SF6; SF6; breakdown characteristics; cubicle type gas-insulated switchgear; discharge inception voltage; double-peak pulses; electron detachment coefficient; gap geometry; gas content; gas mixtures; gas pressure; greenhouse gas; impulse partial discharge; leader discharges; light emission image; positive lightning impulse; precursor discharges; probability breakdown voltage; rod-plane gaps; stepwise propagation; streamer/leader transition; volume-time theory; Breakdown voltage; Dielectrics and electrical insulation; Electric breakdown; Electrodes; Electrons; Gas insulation; Geographic Information Systems; Geometry; Partial discharges; Switchgear;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
DOI :
10.1109/TDEI.2002.1024431
