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Experimental investigation of the transonic shock-wave/boundary-layer interaction over a shock-generation bump

Zhengzhong Sun, Xin Miao, Chetan Jagadeesh

2020Physics of Fluids37 citationsDOIOpen Access PDF

Abstract

A transonic shock-wave/boundary-layer interaction (T-SWBLI) established on a shock-generation bump has been investigated experimentally through particle image velocimetry and high-speed schlieren. The T-SWBLI flowfields have been examined in detail. The near-wall interaction region is visualized with high spatial resolution through schlieren and is further investigated through conditional statistical analysis. The unsteadiness associated with the shock-wave motion is of special interest. The shock-wave locations are extracted to allow spectral analysis of the shock-wave oscillations. The Fourier modal analysis on the schlieren image ensemble is finally reported. The Fourier modes confirm the low-frequency unsteadiness in the shock-wave region and the interaction region. Moreover, the flow fluctuation in the rear part of the interaction region is found to extend into the medium-frequency regime. In addition, the present experimental study showcases that schlieren is a powerful tool in resolving near-wall structures by making use of short exposure time and converged statistics.

Topics & Concepts

SchlierenPhysicsShock waveTransonicSchlieren imagingShock (circulatory)Particle image velocimetryBow shock (aerodynamics)Boundary layerOblique shockOpticsMach numberMechanicsMoving shockAerodynamicsTurbulenceMedicineInternal medicineComputational Fluid Dynamics and AerodynamicsCombustion and Detonation ProcessesAerodynamics and Acoustics in Jet Flows
Experimental investigation of the transonic shock-wave/boundary-layer interaction over a shock-generation bump | Litcius