Add to ORKGCurrent NASA plans for lunar exploration include a human lunar landing system, comprised of separate descent andascent modules, with the eventual goal of reusability. Different oxygen production processes were studied to evaluatethe feasibility of producing 10 tons of oxygen per year assuming a high latitude landing location. The study includesconsideration of packaging the ISRU components on the descent module, methods to transfer the regolith from theexcavators to the processing plant which may be mounted well above the lunar surface, and general concept ofoperations for excavation, oxygen production, and liquefaction and storage. A solar-based power system was alsodesigned and packaged on the lander, including the use of direct solar the...
NASA at the Marshall Space Flight Center (MSFC) is building a portable inflatable solar concentrator...
The production of oxygen from the lunar regolith requires both thermal and electrical power in rough...
Self-sufficiency of lunar operations is essential to establishment of an in-space economy. This work...
The presentation covers two recent studies Lunar In Situ Resource Utilization (ISRU) systems to prod...
An evaluation of several solar concentrator-based systems for producing oxygen from lunar regolith w...
Due to large amounts of oxygen required for space travel, a method of mining, transporting, and stor...
To achieve permanent human presence and activity on the moon, oxygen is required for both life suppo...
Long-term strategic plans for future human space exploration are based on the idea of following an e...
Long-term strategic plans for future human space exploration are based on the idea of following an e...
One aspect of In-Situ Resource Utilization (lSRU) in a lunar environment is to extract oxygen and ot...
Oxygen, whether used as part of rocket bipropellant or for astronaut life support, is a key consumab...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
Perform development to TRL 5/6 through ground demonstration in relevant environment. Perform compone...
Potential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented w...
The NASA Lunar Architecture Team (LAT), which was commissioned to help answer the question "how" wil...
NASA at the Marshall Space Flight Center (MSFC) is building a portable inflatable solar concentrator...
The production of oxygen from the lunar regolith requires both thermal and electrical power in rough...
Self-sufficiency of lunar operations is essential to establishment of an in-space economy. This work...
The presentation covers two recent studies Lunar In Situ Resource Utilization (ISRU) systems to prod...
An evaluation of several solar concentrator-based systems for producing oxygen from lunar regolith w...
Due to large amounts of oxygen required for space travel, a method of mining, transporting, and stor...
To achieve permanent human presence and activity on the moon, oxygen is required for both life suppo...
Long-term strategic plans for future human space exploration are based on the idea of following an e...
Long-term strategic plans for future human space exploration are based on the idea of following an e...
One aspect of In-Situ Resource Utilization (lSRU) in a lunar environment is to extract oxygen and ot...
Oxygen, whether used as part of rocket bipropellant or for astronaut life support, is a key consumab...
This presentation uses recent developments and discoveries to provide a high-level technical overvie...
Perform development to TRL 5/6 through ground demonstration in relevant environment. Perform compone...
Potential oxygen requirements for lunar-surface, lunar-orbit, and planetary missions are presented w...
The NASA Lunar Architecture Team (LAT), which was commissioned to help answer the question "how" wil...
NASA at the Marshall Space Flight Center (MSFC) is building a portable inflatable solar concentrator...
The production of oxygen from the lunar regolith requires both thermal and electrical power in rough...
Self-sufficiency of lunar operations is essential to establishment of an in-space economy. This work...