Add to ORKGDevelopment of a computer program for analyzing the effects of bipropellant spray combustion processes on liquid rocket performance is described and discussed. The distributed energy release (DER) computer program was designed to become part of the JANNAF liquid rocket performance evaluation methodology and to account for performance losses associated with the propellant combustion processes, e.g., incomplete spray gasification, imperfect mixing between sprays and their reacting vapors, residual mixture ratio striations in the flow, and two-phase flow effects. The DER computer program begins by initializing the combustion field at the injection end of a conventional liquid rocket engine, based on injector and chamber design detail, and on p...
Apparatus, techniques, and instrumentation for experimental correlation of nonreactive injection sch...
Computer program for determining combustion stability limits of bipropellant rocket engin
Quantitative information about the atomization of injector sprays is needed to improve the accuracy ...
A computer program for analyzing rocket engine performance was developed. The program is concerned w...
Liquid propellant rocket engine performance computer program with distributed energy releas
A critique is given of the JANNAF sub-critical propellant injection/combustion process analysis comp...
The Advanced Rocket Injector/Combustor Code (ARICC) that has been developed to model the complete ch...
Model for prediction of low-frequency stability limits for bipropellant rocket engine
The capability of simulating three dimensional two phase reactive flows with combustion in the liqui...
The performance and stability of liquid rocket engines is determined to a large degree by atomizatio...
This report summarizes research activity on the Spray Combustion Stability Project, characterizes ac...
A program for predicting the linear stability of liquid propellant rocket engines is presented. The ...
Operating characteristics and design aspects of injector, combustion chamber, and exhaust nozzle for...
The overall structure and capabilities of an expert system designed to evaluate rocket engine perfor...
Model and theoretical equations describing liquid propellant droplet ballistics and combustion gas b...
Apparatus, techniques, and instrumentation for experimental correlation of nonreactive injection sch...
Computer program for determining combustion stability limits of bipropellant rocket engin
Quantitative information about the atomization of injector sprays is needed to improve the accuracy ...
A computer program for analyzing rocket engine performance was developed. The program is concerned w...
Liquid propellant rocket engine performance computer program with distributed energy releas
A critique is given of the JANNAF sub-critical propellant injection/combustion process analysis comp...
The Advanced Rocket Injector/Combustor Code (ARICC) that has been developed to model the complete ch...
Model for prediction of low-frequency stability limits for bipropellant rocket engine
The capability of simulating three dimensional two phase reactive flows with combustion in the liqui...
The performance and stability of liquid rocket engines is determined to a large degree by atomizatio...
This report summarizes research activity on the Spray Combustion Stability Project, characterizes ac...
A program for predicting the linear stability of liquid propellant rocket engines is presented. The ...
Operating characteristics and design aspects of injector, combustion chamber, and exhaust nozzle for...
The overall structure and capabilities of an expert system designed to evaluate rocket engine perfor...
Model and theoretical equations describing liquid propellant droplet ballistics and combustion gas b...
Apparatus, techniques, and instrumentation for experimental correlation of nonreactive injection sch...
Computer program for determining combustion stability limits of bipropellant rocket engin
Quantitative information about the atomization of injector sprays is needed to improve the accuracy ...