Add to ORKGThe payload which can be delivered to orbit by advanced Earth-to-Orbit vehicles is significantly increased by advanced subsystem technology. Any weight which can be saved by advanced subsystem design can be converted to payload at Main Engine Cut Off (MECO) given the same launch vehicle performance. The auxiliary propulsion subsystem and the impetus for the current hydrogen/oxygen technology program is examined. A review of the auxiliary propulsion requirements of advanced Earth-to-Orbit (ETO) vehicles and their proposed missions is given first. Then the performance benefits of hydrogen/oxygen auxiliary propulsion are illustrated using current shuttle data. The proposed auxiliary propulsion subsystem implementation includes liquid hydrogen/...
Two hydrogen oxygen rocket engine system concepts were analyzed parametrically over a thrust range f...
The feasibility is assessed of producing cryogenic propellants on orbit by water electrolysis in sup...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
Two alternate oxygen-hydrogen auxiliary propulsion system concepts for use with the space shuttle ve...
A survey is provided of hydrogen/oxygen (H/O) auxiliary propulsion system (APS) concepts and low thr...
Advanced auxiliary propulsion system (APS) technology has the potential to both, increase the payloa...
Vehicle payload benefits of scavenging hydrogen and oxygen propellants are addressed. The approach u...
Design concepts are considered that permit use of a liquid-liquid (as opposed to gas-gas) oxygen/hyd...
A program to establish technology readiness of hydrogen-oxygen (H2-O2) auxiliary power units for use...
Liquid oxygen (LOX)/hydrocarbon propulsion concepts for a "second generation' orbiter auxiliary prop...
A comparison of the concepts of auxiliary propulsion systems proposed for the space shuttle vehicle ...
Auxiliary power units operating on hydrogen and oxygen have the potential for significantly improved...
Conceptual designs for O2/H2 chemical and resistojet propulsion systems for the space station was de...
Plans are formulated for chemical propulsion technology programs to meet the needs of advanced space...
A research and technology program for advanced high pressure, oxygen-hydrogen rocket propulsion tech...
Two hydrogen oxygen rocket engine system concepts were analyzed parametrically over a thrust range f...
The feasibility is assessed of producing cryogenic propellants on orbit by water electrolysis in sup...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
Two alternate oxygen-hydrogen auxiliary propulsion system concepts for use with the space shuttle ve...
A survey is provided of hydrogen/oxygen (H/O) auxiliary propulsion system (APS) concepts and low thr...
Advanced auxiliary propulsion system (APS) technology has the potential to both, increase the payloa...
Vehicle payload benefits of scavenging hydrogen and oxygen propellants are addressed. The approach u...
Design concepts are considered that permit use of a liquid-liquid (as opposed to gas-gas) oxygen/hyd...
A program to establish technology readiness of hydrogen-oxygen (H2-O2) auxiliary power units for use...
Liquid oxygen (LOX)/hydrocarbon propulsion concepts for a "second generation' orbiter auxiliary prop...
A comparison of the concepts of auxiliary propulsion systems proposed for the space shuttle vehicle ...
Auxiliary power units operating on hydrogen and oxygen have the potential for significantly improved...
Conceptual designs for O2/H2 chemical and resistojet propulsion systems for the space station was de...
Plans are formulated for chemical propulsion technology programs to meet the needs of advanced space...
A research and technology program for advanced high pressure, oxygen-hydrogen rocket propulsion tech...
Two hydrogen oxygen rocket engine system concepts were analyzed parametrically over a thrust range f...
The feasibility is assessed of producing cryogenic propellants on orbit by water electrolysis in sup...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...