Add to ORKGA method for temperature control of the combustion gases in the peripheral zone of a rocket combustor which would reduce ablative throat erosion, prevent melting of zirconia throat inserts, and maintain high combustion performance is discussed. Included are techniques for analyzing and predicting zoned injector performance, as well as the philosophy and method for accomplishing an optimum compromise between high performance and reduced effective gas temperature. The experimental work was done with a 1000-lbf rocket engine which used as propellants N2O4 and a blend of 50-percent N2H4 and 50-percent UDMH at 100-psia chamber pressure and an overall O/F of 2.0. The method selected to provide temperature control was to use 30 percent of the prop...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...
A design and experimental program to develop special instrumentation systems, design engine hardware...
Evaluation and erosion of nonmetallic ablating materials as rocket nozzle section
Development and testing of ablative rocket engine with selected 7.62 cm /3.0 in./ diameter throat in...
Characteristic exhaust velocity of a 200-pound-thrust rocket engine was evaluated for fuel temperatu...
Ablative response of silica phenolic to simulated liquid propellant rocket engine operating conditio...
A rocket of the 1000-pound-thrust class using liquid oxygen and JP-4 fuel as propellant was installe...
Ablation cooling in rocket engine with combustion chamber liner and nozzle constructed of silica phe...
Performance and stability characteristics of rocket engine injectors using liquid oxygen propellan
A rocket injector is provided with multiple sets of manifolds for supplying propellants to injector ...
Test firing evaluation of six ablative-material thrust chambers as components of storable propellant...
An evaluation liquid oxygen (LOX) and various hydrocarbon fuels as low cost alternative propellants ...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
A rocket injector is provided with multiple sets of manifolds for supplying propellants to injector ...
Injector baffles for flame stability in combustion chambers using nitrogen tetroxide and hydrazine m...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...
A design and experimental program to develop special instrumentation systems, design engine hardware...
Evaluation and erosion of nonmetallic ablating materials as rocket nozzle section
Development and testing of ablative rocket engine with selected 7.62 cm /3.0 in./ diameter throat in...
Characteristic exhaust velocity of a 200-pound-thrust rocket engine was evaluated for fuel temperatu...
Ablative response of silica phenolic to simulated liquid propellant rocket engine operating conditio...
A rocket of the 1000-pound-thrust class using liquid oxygen and JP-4 fuel as propellant was installe...
Ablation cooling in rocket engine with combustion chamber liner and nozzle constructed of silica phe...
Performance and stability characteristics of rocket engine injectors using liquid oxygen propellan
A rocket injector is provided with multiple sets of manifolds for supplying propellants to injector ...
Test firing evaluation of six ablative-material thrust chambers as components of storable propellant...
An evaluation liquid oxygen (LOX) and various hydrocarbon fuels as low cost alternative propellants ...
Injector design criteria are provided for gaseous hydrogen-gaseous oxygen propellants. Design equati...
A rocket injector is provided with multiple sets of manifolds for supplying propellants to injector ...
Injector baffles for flame stability in combustion chambers using nitrogen tetroxide and hydrazine m...
The feasibility of using a heavy hydrocarbon fuel as a rocket propellant is examined. A method of pr...
A design and experimental program to develop special instrumentation systems, design engine hardware...
Evaluation and erosion of nonmetallic ablating materials as rocket nozzle section