Add to ORKGA nonlinear multi time-scale analysis of the solid propellant rocket motor transition to the first limit cycle is presented and the motor behavior subsequent to some relevant transition scenarios is investigated. Important physical parameters characterizing the transition to limit cycle are then put in evidence and their cross-effects are studied. The analysis takes into account the effects of acoustic-vorticity-entropy wave coupling, waves steepening, rotational and viscous flow losses due to the steep-fronted waves, energy losses in the steepened state, nonlinear energy pathways and includes the study of the oscillatory energy losses in the nozzle, the unsteady combustion and the combustion chamber geometry changes resulting from the grai...
In this study, acoustic pressure oscillations for single and coupled longitudinal acoustic modes in ...
A time-resolved numerical analysis of combustion dynamics of double-base homogenous solid propellant...
Unstable motions must be anticipated as a possible problem in solid-propellant rocket motors; the ...
A nonlinear multi time-scale analysis of the solid propellant rocket motor transition to the first l...
A nonlinear multi scale analysis of a controllable solid rocket motor operating in conditions rangin...
When flow and combustion processes couple with the acoustic modes of the combustion chamber, the sol...
An analytical framework is developed to understand and predict the thermoacoustic instability in sol...
High frequency combustion instabilities imply a major risk for the solid rocket motor's stable opera...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. A fully coupled ...
In the combustion stability assessment of solid propellant rocket motors, several new destabilizing ...
A linear model for the analysis of longitudinal fluid dynamic oscillations in solid rocket motors is...
International audienceAcoustic coupling with unsteady aluminum particle combustion may lead to self-...
Over the last 60 years, a considerable amount of time and money has been spent improving our underst...
Acoustic instability is currently viewed as one of the major challenges facing Solid Rocket Motor (S...
A nonlinear model is developed to numerically simulate dynamic combustion inside a solid rocket moto...
In this study, acoustic pressure oscillations for single and coupled longitudinal acoustic modes in ...
A time-resolved numerical analysis of combustion dynamics of double-base homogenous solid propellant...
Unstable motions must be anticipated as a possible problem in solid-propellant rocket motors; the ...
A nonlinear multi time-scale analysis of the solid propellant rocket motor transition to the first l...
A nonlinear multi scale analysis of a controllable solid rocket motor operating in conditions rangin...
When flow and combustion processes couple with the acoustic modes of the combustion chamber, the sol...
An analytical framework is developed to understand and predict the thermoacoustic instability in sol...
High frequency combustion instabilities imply a major risk for the solid rocket motor's stable opera...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. A fully coupled ...
In the combustion stability assessment of solid propellant rocket motors, several new destabilizing ...
A linear model for the analysis of longitudinal fluid dynamic oscillations in solid rocket motors is...
International audienceAcoustic coupling with unsteady aluminum particle combustion may lead to self-...
Over the last 60 years, a considerable amount of time and money has been spent improving our underst...
Acoustic instability is currently viewed as one of the major challenges facing Solid Rocket Motor (S...
A nonlinear model is developed to numerically simulate dynamic combustion inside a solid rocket moto...
In this study, acoustic pressure oscillations for single and coupled longitudinal acoustic modes in ...
A time-resolved numerical analysis of combustion dynamics of double-base homogenous solid propellant...
Unstable motions must be anticipated as a possible problem in solid-propellant rocket motors; the ...