Add to ORKGPotential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented with emphasis on: (1) emergency survival of the crew, (2) provision of energy consumables for vehicles, and (3) nondependency on an earth supply of oxygen. Although many extraterrestrial resource processes are analytically feasible, this study has considered hydrogen and fluorine processing concepts to obtain oxygen or water (or both). The results are quite encouraging and are extrapolatable to other processes. Preliminary mission planning and sequencing analysis has enabled the programmatic evaluation of using lunar-derived oxygen relative to transportation cost as a function of vehicle delivery and operational capability
Space exploration has reached a development stage whose main objective is to closely investigate an...
Space Exploration is currently becoming a substantial topic in all space fairing leading nations. Af...
Space Resource Utilisation (SRU) technology will enable further exploration and habitation of space ...
To achieve permanent human presence and activity on the moon, oxygen is required for both life suppo...
During the pre-conceptual design phase of an initial lunar oxygen processing facility, it is essenti...
Future human habitation of the Moon will likely require the use of locally derived materials because...
Due to large amounts of oxygen required for space travel, a method of mining, transporting, and stor...
Current NASA plans for lunar exploration include a human lunar landing system, comprised of separate...
Future human habitation of the Moon will likely require the use of locally derived materials because...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
Production, power, and propulsion technologies for using oxygen and metals derived from lunar resour...
A review of options for processing extraterrestrial materials was dominated by industrial materials ...
Eight state-of-the-art briefings intended to bring members of the Working Group up to date in techni...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
Space exploration has reached a development stage whose main objective is to closely investigate an...
Space Exploration is currently becoming a substantial topic in all space fairing leading nations. Af...
Space Resource Utilisation (SRU) technology will enable further exploration and habitation of space ...
To achieve permanent human presence and activity on the moon, oxygen is required for both life suppo...
During the pre-conceptual design phase of an initial lunar oxygen processing facility, it is essenti...
Future human habitation of the Moon will likely require the use of locally derived materials because...
Due to large amounts of oxygen required for space travel, a method of mining, transporting, and stor...
Current NASA plans for lunar exploration include a human lunar landing system, comprised of separate...
Future human habitation of the Moon will likely require the use of locally derived materials because...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
Production, power, and propulsion technologies for using oxygen and metals derived from lunar resour...
A review of options for processing extraterrestrial materials was dominated by industrial materials ...
Eight state-of-the-art briefings intended to bring members of the Working Group up to date in techni...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
Space exploration has reached a development stage whose main objective is to closely investigate an...
Space Exploration is currently becoming a substantial topic in all space fairing leading nations. Af...
Space Resource Utilisation (SRU) technology will enable further exploration and habitation of space ...