Add to ORKGThis presentation uses recent developments and discoveries to provide a high-level technical overview of a hydrogen-based energy infrastructure that supports sustained exploration of the moon. Combining creative orbital mechanics, robotic mining and process automation techniques, humanity can use lunar resources to generate the necessary propellant to support the transportation of cargo and humans between multiple points in the cis-lunar space. Robotic systems could collect water by either directly collecting the water entrained in the lunar regolith or by processing minerals found in the lunar regolith. These robotic systems could then electrolyze the water to generate high quality hydrogen and oxygen propellant and capitalize on the very ...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Heretofore, discussions of space fuel depots assumed the depots would be supplied from Earth. Howeve...
Potential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented w...
Self-sufficiency of lunar operations is essential to establishment of an in-space economy. This work...
Over 50 years have passed since 2001: A Space Odyssey debuted in April 1968. In the film, Dr. Heywoo...
This paper is the result of an examination by industry, government, and academic experts of the appr...
Establishing a lunar presence and creating an industrial capability on the Moon may lead to importan...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
Numerous studies have shown that the use of space resources to manufacture propellant and consumable...
Mankind's exploration of space will eventually lead to the establishment of a permanent human presen...
Current NASA plans for lunar exploration include a human lunar landing system, comprised of separate...
The presentation covers two recent studies Lunar In Situ Resource Utilization (ISRU) systems to prod...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Establishing a lunar presence and creating an industrial capability on the Moon may lead to importan...
Hydrogen abundances were determined for grain size separates of five lunar soils and one soil brecci...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Heretofore, discussions of space fuel depots assumed the depots would be supplied from Earth. Howeve...
Potential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented w...
Self-sufficiency of lunar operations is essential to establishment of an in-space economy. This work...
Over 50 years have passed since 2001: A Space Odyssey debuted in April 1968. In the film, Dr. Heywoo...
This paper is the result of an examination by industry, government, and academic experts of the appr...
Establishing a lunar presence and creating an industrial capability on the Moon may lead to importan...
High energy propellants for human lunar missions are analyzed, focusing on very advanced ozone and a...
Numerous studies have shown that the use of space resources to manufacture propellant and consumable...
Mankind's exploration of space will eventually lead to the establishment of a permanent human presen...
Current NASA plans for lunar exploration include a human lunar landing system, comprised of separate...
The presentation covers two recent studies Lunar In Situ Resource Utilization (ISRU) systems to prod...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Establishing a lunar presence and creating an industrial capability on the Moon may lead to importan...
Hydrogen abundances were determined for grain size separates of five lunar soils and one soil brecci...
Hydrogen will be needed on a lunar base to make water for consumables, to provide fuel, and to serve...
Heretofore, discussions of space fuel depots assumed the depots would be supplied from Earth. Howeve...
Potential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented w...