Title :
Development of nanosecond pulse surface discharge
Author :
Nudnova, M.M. ; Starikovskii, A.Yu.
Author_Institution :
Moscow Inst. of Phys. & Technol., Moscow, Russia
Abstract :
The main goal of the current work is the investigation of the main steps of the discharge development. It helps to understand how the plasma of sliding discharge influences the air flow around the airfoil. Surface dielectric barrier discharges was investigated in this paper. Discharge propagation at different polarities at high-voltage pulse was investigated. The cathode directed discharge was observed to be more uniform than that on the anode one. Values of energy input in discharges was measured. Gas temperature was restored using emission spectra and increases at discharge phase. It was proved also that there were fast processes leading to non-equilibrium plasma thermalization and the energy release to translational degrees of freedom in microsecond time scale in atmospheric pressure in air.
Keywords :
aerodynamics; luminescence; plasma diagnostics; plasma flow; plasma temperature; surface discharges; air flow; airfoil; anode directed discharge; cathode directed discharge; discharge propagation; emission spectra; energy input; gas temperature; high-voltage pulse; nanosecond pulse surface discharge; nonequilibrium plasma thermalization; sliding discharge; surface dielectric barrier discharges; Anodes; Atmospheric measurements; Automotive components; Cathodes; Dielectric measurements; Energy measurement; Plasma measurements; Plasma temperature; Surface discharges; Temperature measurement;
Conference_Titel :
Gas Discharges and Their Applications, 2008. GD 2008. 17th International Conference on
Conference_Location :
Cardiff
Print_ISBN :
978-0-9558052-0-2
