Surface temperature characterization of dielectric barrier discharge plasma actuator in quiescent air

Abstract: Dielectric barrier discharge plasma actuators (DBDPAs) have been investigated for active flow control. The discharge induces ionic wind, which can be utilized for flow control; however, it simultaneously heats the flow and the dielectric surface. The thermal characteristics of the DBDPA must be clarified for applications in thermo-fluid engineering, such as forced convective cooling. In this study, we constructed a similarity law for the time variation of the surface temperature, assuming that the induced flow… Show more

“…Due to the presence of a dielectric, the DBD reactor is powered by either the pulse [13] or alternative current (AC) power [14]. Commonly, the AC power with a few kilohertz intermediate frequency (IF) is adopted to excite the DBD for various applications owing to its simplicity of implementation and a higher frequency of breakdown occurring [15][16][17][18]. In AC DBD, the electric field of the applied voltage is suppressed by the charge accumulated on the dielectric surface [19].…”

Experimental and numerical study on atmospheric‐pressure air dielectric barrier discharge via 50 Hz/5000 Hz dual‐frequency excitation

“…Due to the presence of a dielectric, the DBD reactor is powered by either the pulse [13] or alternative current (AC) power [14]. Commonly, the AC power with a few kilohertz intermediate frequency (IF) is adopted to excite the DBD for various applications owing to its simplicity of implementation and a higher frequency of breakdown occurring [15][16][17][18]. In AC DBD, the electric field of the applied voltage is suppressed by the charge accumulated on the dielectric surface [19].…”

Experimental and numerical study on atmospheric‐pressure air dielectric barrier discharge via 50 Hz/5000 Hz dual‐frequency excitation

Numerical Simulation of 50 Hz/5 kHz Dual-Frequency Dielectric Barrier Discharge in Atmospheric-Pressure Air