This is the second of two companion papers in which the physics and detailed fluid dynamics of a flow excited resonance are examined. The approach is rather different from those previously used, in which stability theory has been applied to small wavelike disturbances in a linearly unstable shear layer, with an equivalent source driving the sound field which provides the feedback. In the approach used here, the physics of the flow acoustic interaction is explained in terms of the detailed momentum and energy exchanges occurring inside the fluid. Gross properties of the flow and resonance are described in terms of the parameters necessary to determine the behaviour of the feedback system. In this second paper it is shown that two relatively ...
This paper describes the vorticity shedding excitation in tube bundles and its relation to the acous...
This work is about numerical simulations of vortex induced acoustic resonance in a duct, experimenta...
The interaction between fluid flows and acoustic waves is a widely studied subject. These interactio...
This is the first of two companion papers concerned with the physics and detailed fluid dynamics of ...
A linear mechanism for the emergence of acoustic waves from aperiodic vorticity disturbances is pres...
In this paper a full experimental investigation of a flow excited Helmholtz resonator is described, ...
The effects of vortices on the propagation of acoustic waves are numerous, from simple convection ef...
The interior of an open cavity exposed to a grazing flow is known to experience strong periodic pres...
Disturbing whistling due to self-sustained oscillations can be produced in a wide variety of geometr...
The radiation of sound from artificial sources in a developing shear layer is studied numerically, i...
In the paper a phenomenon of sound production in a resonator driven by an air jet has been investiga...
This paper describes an experimental investigation of interactions between acoustic waves and a non...
In this paper, instability mechanisms in a low Mach number reacting flow are investigated. Here, the...
Inviscid hydrodynamics mediates forces through pressure and other, typically irrotational, external ...
High Reynolds number, low Mach number gas flows in pipe systems with closed side branches exhibit sp...
This paper describes the vorticity shedding excitation in tube bundles and its relation to the acous...
This work is about numerical simulations of vortex induced acoustic resonance in a duct, experimenta...
The interaction between fluid flows and acoustic waves is a widely studied subject. These interactio...
This is the first of two companion papers concerned with the physics and detailed fluid dynamics of ...
A linear mechanism for the emergence of acoustic waves from aperiodic vorticity disturbances is pres...
In this paper a full experimental investigation of a flow excited Helmholtz resonator is described, ...
The effects of vortices on the propagation of acoustic waves are numerous, from simple convection ef...
The interior of an open cavity exposed to a grazing flow is known to experience strong periodic pres...
Disturbing whistling due to self-sustained oscillations can be produced in a wide variety of geometr...
The radiation of sound from artificial sources in a developing shear layer is studied numerically, i...
In the paper a phenomenon of sound production in a resonator driven by an air jet has been investiga...
This paper describes an experimental investigation of interactions between acoustic waves and a non...
In this paper, instability mechanisms in a low Mach number reacting flow are investigated. Here, the...
Inviscid hydrodynamics mediates forces through pressure and other, typically irrotational, external ...
High Reynolds number, low Mach number gas flows in pipe systems with closed side branches exhibit sp...
This paper describes the vorticity shedding excitation in tube bundles and its relation to the acous...
This work is about numerical simulations of vortex induced acoustic resonance in a duct, experimenta...
The interaction between fluid flows and acoustic waves is a widely studied subject. These interactio...