Accurate calculations to evaluate the performance of the stoichiometric carbon-oxygen propellant system have been carried out for nozzle flow with and without chemical reactions and with and without vibrational adjustment. The calculations show that, for frozen chemical flow, a lag of vibrational energy states at chamber conditions nearly doubles the reduction in I_(sp), as compared with flow in which complete vibrational equilibrium is maintained. On the other hand, lags in vibrational adjustment have practically no effect on the theoretical performance of hot propellant systems if chemical equilibrium is maintained during nozzle flow. The preceding conclusions are in agreement with the results on other propellant systems obtained previous...
Data were calculated for equivalence ratios of 1 to 3, chamber pressures of 300 and 600 pounds per s...
University of Minnesota Ph.D. dissertation. November 2010. Major: Aerospace Engineering and Mechanic...
A numerical investigation of thermal non-equilibrium flows requires species specific relaxation rate...
Accurate calculations to evaluate the performance of the stoichiometric carbon-oxygen propellant sys...
International audienceA numerical investigation is conducted to study an H2−O2 rocket nozzle flow in...
A study is conducted to predict carbon–carbon nozzle recession behavior in solid rocket motors for w...
Chemical species and reactions of propellant systems determined for nonequilibrium flow - Performanc...
Two different interpretations of measured dissociation rate constants and effects on coupled vibrati...
Experimental measurements and theoretical calculations of the vibrational population distribution in...
To resolve the discrepancy between the numerical detonation cell size and experimental observations ...
An axisymmetric, hypersonic nozzle for arc-heated air is described. The method of characteristics is...
Arguments are presented for the retention of vibrational equilibrium of species in the nozzle of the...
The feasibility of using carbon monoxide and oxygen as rocket propellants was examined both experime...
A different approach to modeling of the thermochemistry of rocket engine combustion phenomena is pre...
Spectrophotometric measurements of vibrational relaxation of CO in shock wave and nozzle expansion-f...
Data were calculated for equivalence ratios of 1 to 3, chamber pressures of 300 and 600 pounds per s...
University of Minnesota Ph.D. dissertation. November 2010. Major: Aerospace Engineering and Mechanic...
A numerical investigation of thermal non-equilibrium flows requires species specific relaxation rate...
Accurate calculations to evaluate the performance of the stoichiometric carbon-oxygen propellant sys...
International audienceA numerical investigation is conducted to study an H2−O2 rocket nozzle flow in...
A study is conducted to predict carbon–carbon nozzle recession behavior in solid rocket motors for w...
Chemical species and reactions of propellant systems determined for nonequilibrium flow - Performanc...
Two different interpretations of measured dissociation rate constants and effects on coupled vibrati...
Experimental measurements and theoretical calculations of the vibrational population distribution in...
To resolve the discrepancy between the numerical detonation cell size and experimental observations ...
An axisymmetric, hypersonic nozzle for arc-heated air is described. The method of characteristics is...
Arguments are presented for the retention of vibrational equilibrium of species in the nozzle of the...
The feasibility of using carbon monoxide and oxygen as rocket propellants was examined both experime...
A different approach to modeling of the thermochemistry of rocket engine combustion phenomena is pre...
Spectrophotometric measurements of vibrational relaxation of CO in shock wave and nozzle expansion-f...
Data were calculated for equivalence ratios of 1 to 3, chamber pressures of 300 and 600 pounds per s...
University of Minnesota Ph.D. dissertation. November 2010. Major: Aerospace Engineering and Mechanic...
A numerical investigation of thermal non-equilibrium flows requires species specific relaxation rate...