Title :
Design and electrical characteristics of a modular plasma torch
Author :
Kuo, Spencer P. ; Koretzky, Edward ; Orlick, Lester
Author_Institution :
Dept. of Electr. Eng., Polytech. Univ., Farmingdale, NY, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
A modular system for constructing an atmospheric pressure plasma source is presented and studied. The design and construction of the plasma torch module by modifying and reassembling the structural components of two different models of spark plugs are first described. Each module can produce a torch plasma of 1 cm radius and 6 cm height and having a peak density exceeding 1013 cm-3. A set of modules, each connected in series with a ballasting capacitor in the circuit, can be operated as an array sharing a common power source to produce a dense and large-volume plasma. The electrical characteristics of the module are studied for the case of a single module and two capacitively coupled modules. The discharge can be maintained, with the aid of ballasting capacitors, in a stable diffuse arc. Furthermore, the coupled discharges in an array of modules are operated with the maximum power efficiency as indicated by a near one power factor seen by the power line
Keywords :
arcs (electric); arrays; plasma diagnostics; plasma production; plasma torches; sparks; array; atmospheric pressure plasma source; ballasting capacitor; ballasting capacitors; capacitively coupled modules; coupled discharges; dense large-volume plasma; design; electrical characteristics; maximum power efficiency; modular plasma torch; modular system; module array; peak density; plasma torch module; power factor; power line; power source; single module; spark plugs; stable diffuse arc; structural components; torch plasma; Atmospheric modeling; Atmospheric-pressure plasmas; Capacitors; Electric variables; Electronic ballasts; Fault location; Modular construction; Plasma density; Plasma properties; Plasma sources;
Journal_Title :
Plasma Science, IEEE Transactions on
