Title :
Plasma-Assisted Combustion System Based on Nonsteady-State Gas-Discharge Plasma Torch
Author :
Korolev, Yury D. ; Frants, Oleg B. ; Landl, Nikolay V. ; Geyman, Vladimir G. ; Shemyakin, Ilja A. ; Enenko, Aleksey A. ; Matveev, Igor B.
Abstract :
This paper describes the experiments with the plasma-assisted combustion system as applied to gaseous hydrocarbons. The system is based on a nonsteady-state gas-discharge plasmatron with a low average current. One of the subjects of the investigations is to elucidate a correlation between the discharge burning regimes in the plasmatron and the properties of the torch flame in the combustion chamber. Depending on the gas-discharge regimes and plasmatron design, the conditions of complete hydrocarbon combustion and partial oxidation have been demonstrated. Aside from that, the data on testing a special power supply intentionally developed for nonsteady discharge powering are presented.
Keywords :
combustion; discharges (electric); flames; plasma diodes; plasma torches; combustion chamber; discharge burning; gaseous hydrocarbons; nonsteady discharge powering; nonsteady-state gas-discharge; partial oxidation; plasma torch; plasma-assisted combustion system; plasmatron; torch flame; Combustion; Discharges; Electrodes; Fuels; Hydrocarbons; Oxidation; Plasma devices; Plasma diagnostics; Plasma properties; Power supplies; Glow-to-spark transition; hydrocarbon partial oxidation; plasma torches; plasma-assisted combustion;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2009.2034163
