Add to ORKGA summary of the design analyses for a liquid rocket injector using oxygen and RP-1 propellants at high chamber pressures of 20,682 kPa (3000 psia) is presented. This analytical investigation includes combustion efficiency versus injector element type, combustion stability, and combustor cooling requirements. The design and fabrication of a subscale injector/acoustic resonantor assembly capable of providing a nominal thrust of 222K N (50,000 lbF) is presented
The performance and stability of liquid rocket engines is determined to a large degree by atomizatio...
Liquid propellant rocket engine throttling injector design based on exhaust gas counter flow and hea...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...
An injector for 3000 psia chamber pressure using liquid oxygen and gaseous methane propellants is pr...
Performance and stability characteristics of rocket engine injectors using liquid oxygen propellan
An investigation of oxygen compatibility and resistance to ignition of candidate materials for use i...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
An experimental program using liquid oxygen (LOX) and RP-1 as the propellants and supercritical LOX ...
This is the final report for the Pressure Fed Technology Program. It details the design, fabrication...
The effect of elevated chamber pressure on combustion efficiency and heat transfer has been determin...
An experimental program was conducted to investigate the rocket combustion and heat transfer charact...
As part of the Combustion Stability Tool Development project funded by the Air Force Space and Missi...
The program consists of parametric analysis and design to provide a consistent engine system data ba...
An experimental program was conducted to characterize the circular coaxial injector concept for appl...
In 2015 and 2016, the National Aeronautics and Space Administration Marshall Space Flight Center des...
The performance and stability of liquid rocket engines is determined to a large degree by atomizatio...
Liquid propellant rocket engine throttling injector design based on exhaust gas counter flow and hea...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...
An injector for 3000 psia chamber pressure using liquid oxygen and gaseous methane propellants is pr...
Performance and stability characteristics of rocket engine injectors using liquid oxygen propellan
An investigation of oxygen compatibility and resistance to ignition of candidate materials for use i...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
An experimental program using liquid oxygen (LOX) and RP-1 as the propellants and supercritical LOX ...
This is the final report for the Pressure Fed Technology Program. It details the design, fabrication...
The effect of elevated chamber pressure on combustion efficiency and heat transfer has been determin...
An experimental program was conducted to investigate the rocket combustion and heat transfer charact...
As part of the Combustion Stability Tool Development project funded by the Air Force Space and Missi...
The program consists of parametric analysis and design to provide a consistent engine system data ba...
An experimental program was conducted to characterize the circular coaxial injector concept for appl...
In 2015 and 2016, the National Aeronautics and Space Administration Marshall Space Flight Center des...
The performance and stability of liquid rocket engines is determined to a large degree by atomizatio...
Liquid propellant rocket engine throttling injector design based on exhaust gas counter flow and hea...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...