AbstractVortex-acoustic coupling is one of the most important potential sources of combustion instability in solid rocket motors (SRMs). Based on the Von Karman Institute for Fluid Dynamics (VKI) experimental motor, the influence of the thermal inhibitor position and temperature on vortex-shedding-driven pressure oscillations is numerically studied via the large eddy simulation (LES) method. The simulation results demonstrate that vortex shedding is a periodic process and its accurate frequency can be numerically obtained. Acoustic modes could be easily excited by vortex shedding. The vortex shedding frequency and second acoustic frequency dominate the pressure oscillation characteristics in the chamber. Thermal inhibitor position and gas t...
It is not uncommon to find pressure oscillations in large size segmented solid rocket motors. During...
A three-dimensional high-fidelity numerical simulation of a small-scale solid rocket motor is carrie...
The present research is an experimental and numerical study of aeroacoustic phenomena occurring in l...
AbstractVortex-acoustic coupling is one of the most important potential sources of combustion instab...
Most combustion machines feature internal flows with very high energy densities. If a small fraction...
old gas scale model experiments (1/30) demonstrate that coupling of vortex shedding with acoustic st...
AbstractNozzle damping is one of the most important factors in the suppression of combustion instabi...
Undesirable sound generation in the combustion chambers of solid propellant rocket motors previously...
A linear model for the analysis of longitudinal fluid dynamic oscillations in solid rocket motors is...
Common in the operation of both segmented and un-segmented large solid rocket motors is the occurren...
In solid rocket motors, vortex nozzle interactions can be a source of large-amplitude pressure pulsa...
Space Shuttle solid rocket motor low frequency internal pressure oscillations have been observed sin...
Control of vortex-driven instabilities was demonstrated via a scaled-down, cold-flow simulation that...
Hybrid rocket motors usually have an aft-mixing chamber in order to improve combustion efficiency. ...
The similarity in internal flow of solid and hybrid rocket suggests that hybrid rocket combustion ca...
It is not uncommon to find pressure oscillations in large size segmented solid rocket motors. During...
A three-dimensional high-fidelity numerical simulation of a small-scale solid rocket motor is carrie...
The present research is an experimental and numerical study of aeroacoustic phenomena occurring in l...
AbstractVortex-acoustic coupling is one of the most important potential sources of combustion instab...
Most combustion machines feature internal flows with very high energy densities. If a small fraction...
old gas scale model experiments (1/30) demonstrate that coupling of vortex shedding with acoustic st...
AbstractNozzle damping is one of the most important factors in the suppression of combustion instabi...
Undesirable sound generation in the combustion chambers of solid propellant rocket motors previously...
A linear model for the analysis of longitudinal fluid dynamic oscillations in solid rocket motors is...
Common in the operation of both segmented and un-segmented large solid rocket motors is the occurren...
In solid rocket motors, vortex nozzle interactions can be a source of large-amplitude pressure pulsa...
Space Shuttle solid rocket motor low frequency internal pressure oscillations have been observed sin...
Control of vortex-driven instabilities was demonstrated via a scaled-down, cold-flow simulation that...
Hybrid rocket motors usually have an aft-mixing chamber in order to improve combustion efficiency. ...
The similarity in internal flow of solid and hybrid rocket suggests that hybrid rocket combustion ca...
It is not uncommon to find pressure oscillations in large size segmented solid rocket motors. During...
A three-dimensional high-fidelity numerical simulation of a small-scale solid rocket motor is carrie...
The present research is an experimental and numerical study of aeroacoustic phenomena occurring in l...