Add to ORKGThe expended capabilities for Orbital Transfer Vehicles (OTV) which will be needed to meet increased payload requirements for transporting materials and men to geosynchronous orbit are discussed. The requirement to provide manrating offers challenges and opportunities to the propulsion system designers. The propulsion approaches utilized in previous manned space vehicles of the United States are reviewed. The principals of reliability analysis are applied to the Orbit Transfer Vehicle. Propulsion system options are characterized in terms of the test requirements to demonstrate reliability goals and are compared to earlier vehicle approaches
This paper describes the Orbital Maneuvering Vehicle (OMV) and its intended role as a key element of...
A reuseable orbit transfer vehicle concept was defined and subsequent recommendations for the design...
Orbital transfer vehicle propulsion options for SPS include both chemical (COTV) and electrical (EOT...
Studies of the United States Space Transportation System show that in the mid-to-late 1990s expanded...
A new Orbital Transfer Vehicle (OTV) propulsion system that will be used in conjunction with the Spa...
The Orbital Transfer Vehicle (OTV) and systems were researched in the following areas: avionics, cre...
With the advent of the manned space station, man now requires a spacecraft based on the space statio...
The capability of the Space Shuttle will be enhanced by use of the high-energy Centaur to provide pa...
The major technology issues for an advanced orbital transfer vehicles (OTV) engine to be used in con...
Requirements for the orbit transfer vehicle engine were examined. Engine performance/weight sensitiv...
Space based servicing of an orbit transfer vehicle (OTV) was previously outlined in sufficient detai...
The design of an unmanned, space-based, reusable Orbital Transfer Vehicle (OTV) is presented. This O...
The objectives of the Phase 2 study were to improve the orbit transfer vehicle (OTV) concept definit...
The routine delivery of large payloads to low earth orbit has become a reality with the Space Transp...
Advanced space transportation systems technology is directed towards both increased capability and g...
This paper describes the Orbital Maneuvering Vehicle (OMV) and its intended role as a key element of...
A reuseable orbit transfer vehicle concept was defined and subsequent recommendations for the design...
Orbital transfer vehicle propulsion options for SPS include both chemical (COTV) and electrical (EOT...
Studies of the United States Space Transportation System show that in the mid-to-late 1990s expanded...
A new Orbital Transfer Vehicle (OTV) propulsion system that will be used in conjunction with the Spa...
The Orbital Transfer Vehicle (OTV) and systems were researched in the following areas: avionics, cre...
With the advent of the manned space station, man now requires a spacecraft based on the space statio...
The capability of the Space Shuttle will be enhanced by use of the high-energy Centaur to provide pa...
The major technology issues for an advanced orbital transfer vehicles (OTV) engine to be used in con...
Requirements for the orbit transfer vehicle engine were examined. Engine performance/weight sensitiv...
Space based servicing of an orbit transfer vehicle (OTV) was previously outlined in sufficient detai...
The design of an unmanned, space-based, reusable Orbital Transfer Vehicle (OTV) is presented. This O...
The objectives of the Phase 2 study were to improve the orbit transfer vehicle (OTV) concept definit...
The routine delivery of large payloads to low earth orbit has become a reality with the Space Transp...
Advanced space transportation systems technology is directed towards both increased capability and g...
This paper describes the Orbital Maneuvering Vehicle (OMV) and its intended role as a key element of...
A reuseable orbit transfer vehicle concept was defined and subsequent recommendations for the design...
Orbital transfer vehicle propulsion options for SPS include both chemical (COTV) and electrical (EOT...