Add to ORKGNASA's LeRC has supported several efforts to understand how lunar and Martian produced propellants can be used to their best advantage for space exploration propulsion. A discussion of these efforts and their results is presented. A Manned Mars Mission Analysis Study identified that a more thorough technology base for propellant production is required before the the net economic benefits of in situ propellants can be determined. Evaluation of the materials available on the moon indicated metal/oxygen combinations are the most promising lunar propellants. A hazard analysis determined that several lunar metal/LOX monopropellants could be safely worked with in small quantities, and a characterization study was initiated to determine the physic...
Mankind's exploration of space will eventually lead to the establishment of a permanent human presen...
It is well known that propellants produced at the points of destination such as the Moon or Mars wil...
Currently, proposed planetary exploration missions must be small, with low costs and a short develop...
Production, power, and propulsion technologies for using oxygen and metals derived from lunar resour...
Extraterrestrial materials, processes, and products were identified which are associated with the pr...
This paper is the result of an examination by industry, government, and academic experts of the appr...
In-situ produced propellants have been identified in many architecture studies as key to implementin...
The first year results of a multi-year study of processing extraterrestrial materials for use in spa...
Manned Mars Mission departures from low lunar orbit (LLO), L2, and low Earth orbit (LEO), using oxyg...
Progress toward the goal of exploiting extraterrestrial resources for space missions is documented. ...
Two main efforts in support of the general goals of SERC/culpr are presented. Investigations of proc...
Current planning for the Space Exploration Initiative (SEI) recognizes the need for extraterrestrial...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
Recent studies for the planned Mars sample return mission were reviewed and modified to utilize carb...
Human exploration missions to Mars or other destinations in the solar system require large quantitie...
Mankind's exploration of space will eventually lead to the establishment of a permanent human presen...
It is well known that propellants produced at the points of destination such as the Moon or Mars wil...
Currently, proposed planetary exploration missions must be small, with low costs and a short develop...
Production, power, and propulsion technologies for using oxygen and metals derived from lunar resour...
Extraterrestrial materials, processes, and products were identified which are associated with the pr...
This paper is the result of an examination by industry, government, and academic experts of the appr...
In-situ produced propellants have been identified in many architecture studies as key to implementin...
The first year results of a multi-year study of processing extraterrestrial materials for use in spa...
Manned Mars Mission departures from low lunar orbit (LLO), L2, and low Earth orbit (LEO), using oxyg...
Progress toward the goal of exploiting extraterrestrial resources for space missions is documented. ...
Two main efforts in support of the general goals of SERC/culpr are presented. Investigations of proc...
Current planning for the Space Exploration Initiative (SEI) recognizes the need for extraterrestrial...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
Recent studies for the planned Mars sample return mission were reviewed and modified to utilize carb...
Human exploration missions to Mars or other destinations in the solar system require large quantitie...
Mankind's exploration of space will eventually lead to the establishment of a permanent human presen...
It is well known that propellants produced at the points of destination such as the Moon or Mars wil...
Currently, proposed planetary exploration missions must be small, with low costs and a short develop...