Title :
Experimental Study of a Surface DBD Actuator Supplied by an Atypical Nanosecond Rising High-Voltage Pulse
Author :
Pons, Jean-Francois ; Rabat, HerveÌ ; Leroy, Annie ; Dunpin Hong
Author_Institution :
Groupe de Rech. sur l´Energetique des Milieux Ionises, Univ. of Orleans, Orleans, France
Abstract :
This paper presents experimental studies of a surface discharge of an aerodynamic actuator produced by a high-voltage pulse with a nanosecond rise time and a millisecond decrease time. Time-resolved imaging of the plasma and interferometric imaging of the shock wave generated by a unique nanosecond ramp were performed. Interferometry enabled shock fronts to be visualized with a 1 μs time resolution and to experimentally deduce for the first time the associated overpressure values. The interaction of the shock wave with the ionic wind generated during consecutive millisecond-scale voltage decay is also reported from phase-averaged laser Doppler velocimetry measurements. The observed phenomena were correlated with time-resolved images of the plasma developing at the dielectric surface during discharge phases.
Keywords :
Doppler measurement; actuators; aerodynamics; flow control; laser velocimetry; light interferometry; plasma devices; plasma diagnostics; plasma flow; plasma pressure; plasma shock waves; surface discharges; aerodynamic actuator; atypical nanosecond rising high-voltage pulse; consecutive millisecond-scale voltage decay; dielectric barrier discharges; dielectric surface; discharge phases; interferometric imaging; interferometry; ionic wind; nanosecond rise time; overpressure values; phase-averaged laser Doppler velocimetry measurements; plasma shock wave; shock fronts; surface DBD actuator; surface discharge; time 1 mus; time-resolved imaging; Actuators; Discharges (electric); Electrodes; Plasmas; Shock waves; Surface discharges; Surface waves; Ionic wind; nanosecond rise-time pulse; plasma actuator; shock wave; surface dielectric barrier discharge (SDBD); surface dielectric barrier discharge (SDBD).;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2321255
