Litcius/Paper detail

Shock and shear layer interactions in a confined supersonic cavity flow

S. K. Karthick

2021Physics of Fluids52 citationsDOIOpen Access PDF

Abstract

The impinging shock of varying strengths on the free shear layer in a confined supersonic cavity flow is studied numerically using the detached eddy simulation. The resulting spatiotemporal variations are analyzed between the different cases using unsteady statistics, x–t diagrams, spectral analysis, and modal decomposition. A cavity of length to depth ratio [L/D]=2 at a freestream Mach number of M∞=1.71 is considered to be in a confined passage. Impinging shock strength is controlled by changing the ramp angle (θ) on the top wall. The static-pressure ratio across the impinging shock (p2/p1) is used to quantify the impinging shock strength. Five different impinging shock strengths are studied by changing the pressure ratio: 1.0,1.2,1.5,1.7, and 2.0. As the pressure ratio increases from 1.0 to 2.0, the cavity wall experiences a maximum pressure of 25% due to shock loading. At [p2/p1]=1.5, fundamental fluidic mode or Rossiter's frequency corresponding to n = 1 mode vanishes whereas frequencies correspond to higher modes (n = 2 and 4) resonate. Wavefronts interaction from the longitudinal reflections inside the cavity with the transverse disturbances from the shock-shear layer interactions is identified to drive the strong resonant behavior. Due to Mach reflections inside the confined passage at [p2/p1]=2.0, shock-cavity resonance is lost. Based on the present findings, an idea to use a shock-laden confined cavity flow in an enclosed supersonic wall-jet configuration as passive flow control or a fluidic device is also demonstrated.

Topics & Concepts

Supersonic speedMach numberPhysicsShock (circulatory)FreestreamMechanicsShock waveOblique shockCavity wallMach waveChoked flowCompressible flowFlow (mathematics)Transverse planeStatic pressureOpticsPressure gradientOverall pressure ratioBow shock (aerodynamics)Shear flowSupersonic wind tunnelCompressibilityResonance (particle physics)Shock diamondPressure measurementFlow control (data)Moving shockShear (geology)Flow separationTurbulenceLongitudinal modeDetached eddy simulationHypersonic speedComputational Fluid Dynamics and AerodynamicsAerodynamics and Acoustics in Jet FlowsPlasma and Flow Control in Aerodynamics