Control of Transonic Cavity Flow Instability by Streamwise Air Injection

Abstract: A time-dependent numerical model of a turbulent Mach 1.5 flow over a rectangular cavity has been developed, to investigate suppression strategies for its natural self-sustained instability. This instability adversely affects the cavity form drag, it produces largeamplitude pressure oscillations in the enclosure and it is a source of far-field acoustic radiation.To suppress the natural flow instability, the leading edge of the two-dimensional cavity model is fitted with a simulated air jet that discharges in th… Show more

“…In the same way, they explained that the rod provides a high frequency forcing through the induced vortex shedding, unveiling the rod mystery. To conclude, if many varied experiments exist on cavity flow control only a few numerical Rona (2004) studied streamwise air injection by solving the bidimensional RANS equations with a k2o closure, and Rizzetta and Visbal (2003) proposed high frequency mass injection for supersonic outer flows.…”

Unstructured Large Eddy Simulation of the passive control of the flow in a weapon bay

“…In the same way, they explained that the rod provides a high frequency forcing through the induced vortex shedding, unveiling the rod mystery. To conclude, if many varied experiments exist on cavity flow control only a few numerical Rona (2004) studied streamwise air injection by solving the bidimensional RANS equations with a k2o closure, and Rizzetta and Visbal (2003) proposed high frequency mass injection for supersonic outer flows.…”

Unstructured Large Eddy Simulation of the passive control of the flow in a weapon bay

Introduction

EffFluidic Control of Cavity Configurations at Subsonic and Supersonic Speeds