Add to ORKGNumerical simulations are used to investigate the resonant instabilities in the flow past an open cavity. The compressible Navier-Stokes equations are solved directly (no turbulence model) for two-dimensional cavities with laminar boundary layers upstream. The computational domain is large enough to directly resolve a portion of the radiated acoustic field. The results show a transition from a shear layer mode, for shorter cavities and lower Mach numbers, to a wake mode for longer cavities and higher Mach numbers. The shear layer mode is well characterized by Rossiter modes. The wake mode is characterized instead by a large-scale vortex shedding with Strouhal number independent of the Mach number. The vortex shedding causes the boundary lay...
The goal of this work is to provide accurate dynamical models of oscillations in the flow past a rec...
Numerical simulations of flows over a two-dimensional (2D) and a three-dimensional (3D) rectangular ...
An overview of some recent advances in simulation, modeling, and control of flow/acoustic resonance ...
Numerical simulations are used to investigate the resonant instabilities in the flow past an open ca...
The modes of oscillation and radiated acoustic fields of compressible flows over open cavities are i...
Numerical simulations are used to investigate the resonant instabilities in two-dimensional flow pas...
We report progress in our ongoing effort to compute and understand the instabilities of open cavity ...
Direct numerical simulations are performed to investigate the three-dimensional stability of compres...
The present work focuses on the study of noise generation and radiation of an infinite open three-di...
Despite the amount of research into the cavity flow problem the prediction of the flow patterns, ass...
Numerical Simulations of the two- and three-dimensional linearized Navier–Stokes equations are perfo...
Open cavity flow is that of most interest to researchers. The flow is typical to that found to exist...
A transonic air stream flowing over a rectangular cavity or enclosure is unsteady. At certain flow c...
This thesis involves the modeling of self-sustained oscillations in the flow past a rectangular cavi...
Direct numerical simulations are performed to investigate the stability of compressible flow over th...
The goal of this work is to provide accurate dynamical models of oscillations in the flow past a rec...
Numerical simulations of flows over a two-dimensional (2D) and a three-dimensional (3D) rectangular ...
An overview of some recent advances in simulation, modeling, and control of flow/acoustic resonance ...
Numerical simulations are used to investigate the resonant instabilities in the flow past an open ca...
The modes of oscillation and radiated acoustic fields of compressible flows over open cavities are i...
Numerical simulations are used to investigate the resonant instabilities in two-dimensional flow pas...
We report progress in our ongoing effort to compute and understand the instabilities of open cavity ...
Direct numerical simulations are performed to investigate the three-dimensional stability of compres...
The present work focuses on the study of noise generation and radiation of an infinite open three-di...
Despite the amount of research into the cavity flow problem the prediction of the flow patterns, ass...
Numerical Simulations of the two- and three-dimensional linearized Navier–Stokes equations are perfo...
Open cavity flow is that of most interest to researchers. The flow is typical to that found to exist...
A transonic air stream flowing over a rectangular cavity or enclosure is unsteady. At certain flow c...
This thesis involves the modeling of self-sustained oscillations in the flow past a rectangular cavi...
Direct numerical simulations are performed to investigate the stability of compressible flow over th...
The goal of this work is to provide accurate dynamical models of oscillations in the flow past a rec...
Numerical simulations of flows over a two-dimensional (2D) and a three-dimensional (3D) rectangular ...
An overview of some recent advances in simulation, modeling, and control of flow/acoustic resonance ...