Title :
Point-to-Point Corona Discharge in Admixtures of Argon, Oxygen, and Acetylene
Author :
Islam, Rokibul ; Pedrow, Patrick D. ; Shuzheng Xie ; Englund, Karl R.
Author_Institution :
Sch. of Electr. Eng. & Comput. Sci., Washington State Univ., Pullman, WA, USA
Abstract :
Multipoint-to-multipoint and multipoint-to-plane electrode geometries have been investigated to enhance corona discharge modes in atmospheric pressure weakly ionized plasma. This paper presents a new geometry approach by a protrusion array over the grounded screen along with a high-voltage (HV) needle array to obtain higher coulombic discharge. It has been observed that needle-to-grounded-screen-protrusion configuration enhances the discharge modes, especially the back corona is enhanced significantly near the protrusions in Ar/C2H2 plasma. A corona mode map has been developed to depict the optimal discharge zones at various HV gaps. Similar investigations were performed in Ar/O2 plasma to study the nature of the current pulses and discharge modes.
Keywords :
argon; corona; discharges (electric); electrodes; gas mixtures; ionisation; organic compounds; oxygen; plasma transport processes; Ar-O2; admixtures; atmospheric pressure weakly ionized plasma; coulombic discharge; current pulses; discharge modes; high-voltage needle array; multipoint-to-multipoint electrode geometries; multipoint-to-plane electrode geometries; needle-grounded-screen-protrusion configuration; point-to-point corona discharge; Argon; Corona; Discharges (electric); Geometry; Inductors; Needles; Plasmas; Atmospheric pressure plasmas; back corona; point-to-plane corona discharge; weakly ionized plasma; weakly ionized plasma.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2015.2475220
