Su Changbing scite author profile

Wedge oblique shock wave control using an arc discharge plasma aerodynamic actuator was investigated both experimentally and theoretically. Schlieren photography measurements in a small-scale short-duration supersonic wind tunnel indicated that the shock wave angle decreased and its start point shifted upstream with the plasma aerodynamic actuation. Also the shock wave intensity weakened, as shown by the decrease in the gas static pressure ratio of flow downstream and upstream of the shock wave. Moreover, the shock wave control effect was intensified when a static magnetic field was applied. Under test conditions of Mach 2.2, magnetic control and input voltage 3 kV, the start point of the shock wave shifted 4 mm upstream, while its angle and intensity decreased 8.6% and 8.8%, respectively. A thermal choking model was proposed to deduce the change laws of oblique shock wave control by surface arc discharge. The theoretical result was consistent with the experimental result, which demonstrated that the thermal choking model can effectively forecast the effect of plasma actuation on an oblique shock wave in a cold supersonic flow.

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Experimental Investigation into Characteristics of Plasma Aerodynamic Actuation Generated by Dielectric Barrier Discharge

Wang

Jia

et al. 2010

Chinese Journal of Aeronautics

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Mechanism Investigation on Shock Wave Control by Plasma Aerodynamic Actuation

Wang¹,

Li²,

Cheng³

et al. 2009

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Plasma Aerodynamic Actuation Based Corner Separation Control in a Compressor Cascade

Wu¹,

Li²,

Zhou³

et al. 2009

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Su Changbing

Control of the corner separation in a compressor cascade by steady and unsteady plasma aerodynamic actuation

Effects of plasma aerodynamic actuation on oblique shock wave in a cold supersonic flow

Experimental Investigation into Characteristics of Plasma Aerodynamic Actuation Generated by Dielectric Barrier Discharge

Mechanism Investigation on Shock Wave Control by Plasma Aerodynamic Actuation

Plasma Aerodynamic Actuation Based Corner Separation Control in a Compressor Cascade

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