A comprehensive numerical analysis has been conducted to study the combustion of a double-base homogeneous propellant in a rocket motor. Emphasis was placed on the motor internal flow development and its influence on propellant combustion. The formulation is based on the Favre-averaged, filtered equations for the conservation laws and takes into account finite-rate chemical kinetics and variable ther-mophysical properties. Turbulence closure is obtained using the large-eddy-simulation technique. The contribution of large energy-carrying structures to mass, momentum, and energy transfer is computed explicitly, and the effect of small scales of turbulence is modeled. The governing equations and associated boundary conditions are solved using ...
MSc (Applied Mathematics), North-West University, Potchefstroom CampusThis research project presents...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. The formulation...
Combustion instability is the biggest threat to the reliability of liquid rocket engines, whose pred...
A time-resolved numerical analysis of combustion dynamics of double-base homogenous solid propellant...
A numerical code that simulates combustion phenomena occurring in a solid rocket motor is developed ...
International audienceIn this paper, we present a numerical approach for predicting fluid flows in s...
In this paper numerical studies have been carried out to examine the pre-ignition flow features of h...
The present analytical, numerical, and experimental investigations are performed to study the flow f...
This paper describes an approximate method for estimating effects of turbulence on the unsteady flow...
A method for a comprehensive approach to analysis of the dynamics of an actively controlled combusti...
In the combustion stability assessment of solid propellant rocket motors, several new destabilizing ...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. A fully coupled ...
We describe our numerical method for threedimensional simulations of solid rocket motors in which th...
Turbulent combustion is the basic physical phenomenon responsible for efficient energy release by an...
Numerical simulation of the flow instability and pressure self-oscillations for complex configuratio...
MSc (Applied Mathematics), North-West University, Potchefstroom CampusThis research project presents...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. The formulation...
Combustion instability is the biggest threat to the reliability of liquid rocket engines, whose pred...
A time-resolved numerical analysis of combustion dynamics of double-base homogenous solid propellant...
A numerical code that simulates combustion phenomena occurring in a solid rocket motor is developed ...
International audienceIn this paper, we present a numerical approach for predicting fluid flows in s...
In this paper numerical studies have been carried out to examine the pre-ignition flow features of h...
The present analytical, numerical, and experimental investigations are performed to study the flow f...
This paper describes an approximate method for estimating effects of turbulence on the unsteady flow...
A method for a comprehensive approach to analysis of the dynamics of an actively controlled combusti...
In the combustion stability assessment of solid propellant rocket motors, several new destabilizing ...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. A fully coupled ...
We describe our numerical method for threedimensional simulations of solid rocket motors in which th...
Turbulent combustion is the basic physical phenomenon responsible for efficient energy release by an...
Numerical simulation of the flow instability and pressure self-oscillations for complex configuratio...
MSc (Applied Mathematics), North-West University, Potchefstroom CampusThis research project presents...
A numerical analysis of unsteady motions in solid rocket motors has been conducted. The formulation...
Combustion instability is the biggest threat to the reliability of liquid rocket engines, whose pred...