Pulse Repetition Rate Effect on Nanosecond Pulse Corona Discharge

Author

Baksht, Rina B. ; Yankelevich, Yefim ; Pokryvailo, Alex ; Oreshkin, Vladimir I.

Author_Institution

Propulsion Phys. Lab., Soreq Nucl. Res. Center, Yavne´´el

Volume

34

Issue

5

fYear

2006

Firstpage

1725

Lastpage

1730

Abstract

Pulsed corona (PC) offers real promise for the degradation of pollutants in gas and water streams. Understanding discharge physics is necessary for developing corona applications. This paper presents an investigation of the dependence of PC current and radiation on pulse repetition rate (PRR). The study was carried out in a wire-to-wire geometry. A corona device with a central high-voltage electrode and two symmetrical grounded electrodes was used for model experiments. A nanosecond solid-state pulse generator SM-2N (100 kV, 5 ns, PRR up to 300 Hz) was used for driving PC discharge. A model expression relating the removal efficiency with PRR is presented. The removal efficiency falls with the increase of PRR at a "constant" flow rate or "constant" residence time. There is satisfactory agreement between the calculated data and the experimental results

Keywords

corona; plasma applications; plasma transport processes; 100 kV; 300 Hz; 5 ns; SM-2N; central high-voltage electrode; gas streams; nanosecond pulse corona discharge; pollutant degradation; pulse repetition rate effect; removal efficiency; solid-state pulse generator; symmetrical grounded electrodes; water streams; wire-to-wire geometry; Corona; Electrodes; Inductors; Physics; Probes; Pulse generation; Solid state circuits; Voltage; Water pollution; Wires; Atmospheric pressure corona; removal efficiency; repetition rate;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2006.883387

Filename

1710033