Nishul Arora scite author profile

This paper presents an investigation of open-loop control of cavity flow oscillations using a three-dimensional (3-D) array of steady jets located at the leading edge of the cavity. The actuation is introduced to suppress the fluctuating surface pressure in a rectangular cavity with a length-to-depth ratio (L/D) of 6 at Mach numbers from 0.3 to 0.7. Several different slot-jet configurations are assessed for their control performance considering the jet output momentum and interactions with the boundary layer at the leading edge. Significant tonal and broadband reductions of cavity oscillations are observed using 3-D actuation with wavelengths (λ/D) from 0.5 to 1 and with 25-50% spatial duty cycle. High speed (12 kHz) schlieren imaging and two-component and three-component stereoscopic Particle Image Velocimetry (PIV) are performed to investigate the baseline and controlled flow fields. Companion 3-D large eddy simulations (LES) are performed and exhibit good agreement with the experiments. The experiments and complementary LES reveal detailed flow physics. The 3-D actuation introduces strong spanwise wave-like structures which disrupt the growth of the shear layer and reduce the strength of fluctuating flow properties in the impingement region. The experimental and numerical analyses aid in the development of efficient control methodologies.

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Effect of Reynolds Number on 3-D Shock Wave Boundary Layer Interactions

Baldwin¹,

Arora²,

Kumar³

et al. 2016

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Unsteady Characteristics of a Swept-Shock/Boundary-Layer Interaction at Mach 2

2019

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Nishul Arora

Suppression of Cavity Flow Oscillations via Three-Dimensional Steady Blowing

Suppression of Cavity Oscillations via Three-Dimensional Steady Blowing

Effect of Reynolds Number on 3-D Shock Wave Boundary Layer Interactions

Unsteady Characteristics of a Swept-Shock/Boundary-Layer Interaction at Mach 2

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