Results concerning numerical simulations of solid propellant combustion are presented. The mathematical model, which is based on the solid phase energy conservation equation , and the numerical solution techniques are briefly described. Depending on the physical situation, either a reference frame fixed to the burnung surface or one fixed to the laboratory are used. Scale transformations or non uniform grids are adopted to reduce CPU time. The results presented include depressurization, ignition and constant pressure combustion with heat losses from the propellant cold boundary.
Numerical techniques applied to solid propellant combustion
Riva G;
1988
Abstract
Results concerning numerical simulations of solid propellant combustion are presented. The mathematical model, which is based on the solid phase energy conservation equation , and the numerical solution techniques are briefly described. Depending on the physical situation, either a reference frame fixed to the burnung surface or one fixed to the laboratory are used. Scale transformations or non uniform grids are adopted to reduce CPU time. The results presented include depressurization, ignition and constant pressure combustion with heat losses from the propellant cold boundary.File in questo prodotto:
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