Article
Plasma Investigations
2003. V. 41. № 3. P. 282–289
Isakaev E.Kh., Sinkevich O.A.
The shunting of current and the resultant variation of voltage in channels of plasmatrons with self-adjusting length of electric arc
The characteristics of pulsation processes in dc plasmatrons with the cathode located in the channel center and the anode in the form of a cylindrical or a conical channel wall are investigated in plasmas of argon and nitrogen at atmospheric pressure. The fast Fourier transform of signals and their subsequent computer processing are used to obtain the dependences of the frequency of fluctuations of the arcing voltage on the working parameters of the plasmatron, namely, the electric arc current, the flow rate of plasma-forming gas, and the channel diameter. For plasmatrons with the self-adjusting length of the electric arc, analysis is performed of the mechanism of reclosing of the anode region of the arc, i.e., of the electric arc shunting associated with the stretching of the current filament by a flow of gas and with the electrodynamic interaction of different filament regions. A formula is derived which defines the dependence of the characteristic frequency of fluctuations of the arcing voltage on the external parameters of the problem, namely, the arc current, the flow rate of the working gas, and the characteristic channel diameter. It is demonstrated that the pattern of the dependence of the frequency of voltage fluctuations on the gas flow rate may vary with the values of the parameter of magnetohydrodynamic interaction. The formula generalizes the experimental results of numerous researchers obtained in a wide range of variation of the external parameters.
Article reference:
Isakaev E.Kh., Sinkevich O.A. The shunting of current and the resultant variation of voltage in channels of plasmatrons with self-adjusting length of electric arc, High Temp., 2003. V. 41. № 3. P. 282
Isakaev E.Kh., Sinkevich O.A. The shunting of current and the resultant variation of voltage in channels of plasmatrons with self-adjusting length of electric arc, High Temp., 2003. V. 41. № 3. P. 282