Title :
Comparative study of homogenous dielectric barrier discharge in atmospheric inert gases
Author :
Luo, Haiyun ; Ran, Junxi ; Wang, Xinxin
Author_Institution :
State Key Laboratory of Power System, Department of Electrical Engineering, Tsinghua University, Beijing 100084, China
Abstract :
Summary form only given. Dielectric barrier discharge (DBD) at atmospheric pressure are easily to get homogenous in helium and neon, but always un-uniform in other inert gases. In order to have a deep understanding of the mechanism of DBD in inert gases at atmospheric pressure, Comparative study of the discharge mode, evolution of the homogenous DBD and spectra in a parallel gap were carried out by means of electrical measurements, fast photography and time-resolved emission spectroscopy in different inert gases. It was found that homogenous DBD could be easily produced in 2∼8mm gaps in helium and neon, and they were attributed to glow discharge. Compared to that in helium or neon, only a part of the 5mm-diameter electrode could be covered by homogenous DBD in 2mm argon gap. And a small increase of the applied voltage would convert the partly homogenous DBD into the pattern mode. If the gas gap was no less than 3 mm in argon, a bright filament would appear, and the current density could reach 7.5A/cm2 in the steamer channel. High-speed time-resolved photographs of the homogenous DBD in helium, neon and argon were taken using an Intensified-CCD camera with an exposure time of 10ns. Side-view photographs showed an evolution from Townsend discharge to glow discharge. The end-view photographs showed a radial development. The spectroscopic diagnosis showed that penning ionization was very important to obtain a homogenous DBD. N2+ first negative system (B2 Σu+ → X2Σg+) was observed in helium, but not observed in the neon and argon. The emission spectral lines of N2 second positive band system (C 3∏u → B 3∏g) could be observed in neon and argon.
Keywords :
Argon; Atmospheric measurements; Dielectrics; Discharges (electric); Helium; Power systems;
Conference_Titel :
Plasma Science (ICOPS), 2012 Abstracts IEEE International Conference on
Conference_Location :
Edinburgh
Print_ISBN :
978-1-4577-2127-4
Electronic_ISBN :
0730-9244
DOI :
10.1109/PLASMA.2012.6383292