Add to ORKGAn analytical model and corresponding computer program for studying disturbances of liquid propellants in typical engine feedline systems were developed. The model includes the effects of steady turbulent mean flow, the influence of distributed compliances, the effects of local compliances, and various factors causing structural-hydraulic coupling. The computer program was set up such that the amplitude and phase of the terminal pressure/input excitation is calculated over any desired frequency range for an arbitrary assembly of various feedline components. A user's manual is included
Liquid propellant behavior under space flight conditions and predicting Apollo spacecraft liquid sta...
A program for predicting the linear stability of liquid propellant rocket engines is presented. The ...
Longitudinal wave propagation in elastic pipe filled with incompressible viscous streaming flui
An analytical model and computer program were developed for studying the disturbances of liquid prop...
A digital distributed parameter model for computing the dynamic response of propellant feed systems ...
A digital distributed parameter model was used to study the effects of propellant-feed- system coupl...
Longitudinal oscillations of propellant tanks and wave propagations in feed lines with streaming flu...
An operating manual for the feed system coupled stability model was given, in partial fulfillment of...
Dynamic modeling of pressurization system and pneumatic pressure regulator in pressure fed liquid pr...
Analytical method for determining axisymmetric longitudinal mode shapes and frequencies of incompres...
Theory and equations for propagating pressure waves in liquid filled cylindrical shell
Experimental data are presented for verifying the computer program for computing propellant oscillat...
Research on propulsion stability (chugging and acoustic modes), and propellant valve control was inv...
Analytical studies have been made of the relative combustion stability of various propellant combina...
Dynamic interaction between structure and liquid propellants in space shuttle vehicle model
Liquid propellant behavior under space flight conditions and predicting Apollo spacecraft liquid sta...
A program for predicting the linear stability of liquid propellant rocket engines is presented. The ...
Longitudinal wave propagation in elastic pipe filled with incompressible viscous streaming flui
An analytical model and computer program were developed for studying the disturbances of liquid prop...
A digital distributed parameter model for computing the dynamic response of propellant feed systems ...
A digital distributed parameter model was used to study the effects of propellant-feed- system coupl...
Longitudinal oscillations of propellant tanks and wave propagations in feed lines with streaming flu...
An operating manual for the feed system coupled stability model was given, in partial fulfillment of...
Dynamic modeling of pressurization system and pneumatic pressure regulator in pressure fed liquid pr...
Analytical method for determining axisymmetric longitudinal mode shapes and frequencies of incompres...
Theory and equations for propagating pressure waves in liquid filled cylindrical shell
Experimental data are presented for verifying the computer program for computing propellant oscillat...
Research on propulsion stability (chugging and acoustic modes), and propellant valve control was inv...
Analytical studies have been made of the relative combustion stability of various propellant combina...
Dynamic interaction between structure and liquid propellants in space shuttle vehicle model
Liquid propellant behavior under space flight conditions and predicting Apollo spacecraft liquid sta...
A program for predicting the linear stability of liquid propellant rocket engines is presented. The ...
Longitudinal wave propagation in elastic pipe filled with incompressible viscous streaming flui