Add to ORKGElectrostatic beneficiation of lunar regolith is being researched at Kennedy Space Center to enhance the ilmenite concentration of the regolith for the production of oxygen in in-situ resource utilization on the lunar surface. Ilmenite enrichment of up to 200% was achieved using lunar simulants. For the most accurate quantification of the regolith particles, standard petrographic methods are typically followed, but in order to optimize the process, many hundreds of samples were generated in this study that made the standard analysis methods time prohibitive. In the current studies, X-ray photoelectron spectroscopy (XPS) and Secondary Electron microscopy/Energy Dispersive Spectroscopy (SEM/EDS) were used that could automatically, and quickly...
The development of an efficient process to simultaneously extract oxygen and metals from lunar regol...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
One aspect of In-Situ Resource Utilization (lSRU) in a lunar environment is to extract oxygen and ot...
The space industry is moving towards increasing sustainability for operations of a long duration spa...
Future human lunar habitation requires using in situ materials for both structural components and ox...
Electrostatic beneficiation of lunar regolith is a method allowing refinement of specific minerals i...
One of the most important commodities lacking in the moon is free oxygen which is required for life ...
Space Resource Utilisation (SRU) technology will enable further exploration and habitation of space ...
Natural concentrations of industrially valuable minerals are far less likely to be found on the Moon...
As NASA turns its exploration ambitions towards the Moon once again, the research and development of...
Lunar regolith simulant production is absolutely critical to returning man to the Moon. Regolith sim...
Introduction: As NASA turns its exploration ambitions towards the Moon once again, the research and ...
In the past 20 years, considerable attention been paid to returning to our natural satellite with r...
The Apollo missions collected 382 kg of rock and regolith from the Moon; approximately 1/3 of the sa...
The utilization of extraterrestrial resources may one day enable mankind’s further exploration and ...
The development of an efficient process to simultaneously extract oxygen and metals from lunar regol...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
One aspect of In-Situ Resource Utilization (lSRU) in a lunar environment is to extract oxygen and ot...
The space industry is moving towards increasing sustainability for operations of a long duration spa...
Future human lunar habitation requires using in situ materials for both structural components and ox...
Electrostatic beneficiation of lunar regolith is a method allowing refinement of specific minerals i...
One of the most important commodities lacking in the moon is free oxygen which is required for life ...
Space Resource Utilisation (SRU) technology will enable further exploration and habitation of space ...
Natural concentrations of industrially valuable minerals are far less likely to be found on the Moon...
As NASA turns its exploration ambitions towards the Moon once again, the research and development of...
Lunar regolith simulant production is absolutely critical to returning man to the Moon. Regolith sim...
Introduction: As NASA turns its exploration ambitions towards the Moon once again, the research and ...
In the past 20 years, considerable attention been paid to returning to our natural satellite with r...
The Apollo missions collected 382 kg of rock and regolith from the Moon; approximately 1/3 of the sa...
The utilization of extraterrestrial resources may one day enable mankind’s further exploration and ...
The development of an efficient process to simultaneously extract oxygen and metals from lunar regol...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
One aspect of In-Situ Resource Utilization (lSRU) in a lunar environment is to extract oxygen and ot...