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Compression ramp shock wave/boundary layer interaction control with high-frequency streamwise pulsed spark discharge array

Mengxiao Tang, Yun Wu, Guo Shanguang, Hua Liang, Yanhao Luo

2020Physics of Fluids34 citationsDOI

Abstract

A streamwise array of pulsed spark discharge operating at a high frequency of 10 kHz is used to control the shock wave/boundary layer interaction (SWBLI) induced by a 24° compression ramp (CR) in a Mach 2.0 flow. High-speed schlieren imaging at 50 000 frames/s is deployed for flow visualization. The schlieren snapshots, as well as statistics of the schlieren sequence, show that the intensity weakening effect on the shock wave can be achieved for a long time up to 20 ms, which is the first experimental demonstration of stable control on the CR-SWBLI with plasma actuators. Then, based on fast Fourier transform analyses, the low-frequency unsteadiness of the shock wave is also significantly modified and the dominant oscillation frequency is switched to the high frequency St = 0.32. The mechanism of the encouraging control outcome is finally discussed that the strong separation wave induced by a CR is replaced by a multistage weak compression wave produced through a high-frequency actuator array.

Topics & Concepts

SchlierenPhysicsShock wavePlasma actuatorSchlieren imagingShock (circulatory)Boundary layerMach numberOpticsFlow control (data)AcousticsOscillation (cell signaling)Flow visualizationMechanicsFlow (mathematics)PlasmaDielectric barrier dischargeGeneticsComputer scienceComputer networkQuantum mechanicsMedicineInternal medicineBiologyPlasma and Flow Control in AerodynamicsComputational Fluid Dynamics and AerodynamicsFluid Dynamics and Turbulent Flows
Compression ramp shock wave/boundary layer interaction control with high-frequency streamwise pulsed spark discharge array | Litcius