Add to ORKGThe progress on the Space Station Propulsion Technology Program is described. The objectives are to provide a demonstration of hydrogen/oxygen propulsion technology readiness for the Initial Operating Capability (IOC) space station application, specifically gaseous hydrogen/oxygen and warm hydrogen thruster concepts, and to establish a means for evolving from the IOC space station propulsion to that required to support and interface with advanced station functions. The evaluation of concepts was completed. The accumulator module of the test bed was completed and, with the microprocessor controller, delivered to NASA-MSFC. An oxygen/hydrogen thruster was modified for use with the test bed and successfully tested at mixture ratios from 4:1 to...
The technical highlights and accomplishments made at NASA LeRC in the development of the Space Stati...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
Design, fabrication, and testing of auxiliary hydrogen-oxygen space power generation uni
The objectives of this program are to provide a demonstration of hydrogen/oxygen propulsion technolo...
The completion of the Space Station Propulsion Advanced Technology Programs established an in-depth ...
Conceptual designs for O2/H2 chemical and resistojet propulsion systems for the space station was de...
The development of the manned space station has necessitated the development of technology related t...
A reference configuration was established for the initial operating capability (IOC) station. The re...
A survey is provided of hydrogen/oxygen (H/O) auxiliary propulsion system (APS) concepts and low thr...
The development of a reusable, attitude-control propulsion system for the space transportation syste...
Two alternate oxygen-hydrogen auxiliary propulsion system concepts for use with the space shuttle ve...
Prototype components fabrication and performance tests in development of hydrogen-oxygen auxiliary s...
Viewgraphs on propulsion technology discipline for Space Station Freedom are presented. Topics cover...
A research and technology program for advanced high pressure, oxygen-hydrogen rocket propulsion tech...
Performance, friction, and expansion tests and component fabrication in development of hydrogen-oxyg...
The technical highlights and accomplishments made at NASA LeRC in the development of the Space Stati...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
Design, fabrication, and testing of auxiliary hydrogen-oxygen space power generation uni
The objectives of this program are to provide a demonstration of hydrogen/oxygen propulsion technolo...
The completion of the Space Station Propulsion Advanced Technology Programs established an in-depth ...
Conceptual designs for O2/H2 chemical and resistojet propulsion systems for the space station was de...
The development of the manned space station has necessitated the development of technology related t...
A reference configuration was established for the initial operating capability (IOC) station. The re...
A survey is provided of hydrogen/oxygen (H/O) auxiliary propulsion system (APS) concepts and low thr...
The development of a reusable, attitude-control propulsion system for the space transportation syste...
Two alternate oxygen-hydrogen auxiliary propulsion system concepts for use with the space shuttle ve...
Prototype components fabrication and performance tests in development of hydrogen-oxygen auxiliary s...
Viewgraphs on propulsion technology discipline for Space Station Freedom are presented. Topics cover...
A research and technology program for advanced high pressure, oxygen-hydrogen rocket propulsion tech...
Performance, friction, and expansion tests and component fabrication in development of hydrogen-oxyg...
The technical highlights and accomplishments made at NASA LeRC in the development of the Space Stati...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
Design, fabrication, and testing of auxiliary hydrogen-oxygen space power generation uni