Add to ORKGThe atmosphere of Mars, which is approximately 95% carbon dioxide (CO2), is a rich resource for the human exploration of the red planet, primarily by the production of rocket propellants and oxygen for life support. Three recent projects led by NASA's Kennedy Space Center have been investigating the processing of CO2. The first project successfully demonstrated the Mars Atmospheric Processing Module (APM), which freezes CO2 with cryocoolers and combines sublimated CO2 with hydrogen to make methane and water. The second project absorbs CO2 with Ionic Liquids and electrolyzes it with water to make methane and oxygen, but with limited success so far. A third project plans to recover up to 100% of the oxygen in spacecraft respiratory CO2. A com...
The compression of CO2 from the Martian atmosphere for production of O2 via an electrochemical cell ...
Human exploration missions to Mars and other destinations beyond low Earth orbit require highly robu...
An in situ propellant production (ISPP) plant on future Mars robotic missions can produce oxygen (O2...
The atmosphere of Mars, which is 96 percent carbon dioxide (CO2), is a rich resource for the human e...
The multi-NASA center Mars Atmosphere and Regolith COllector/PrOcessor for Lander Operations (MARCO ...
NASA now looks to Mars as the next step in human space exploration. A couple of challenges of such a...
Use of resources available in situ is a critical enabling technology for a permanent human presence ...
Here we report further progress in the development of the MARCO POLO-Mars Pathfinder Atmospheric Pro...
The ultimate destination of NASA's human exploration program is Mars. In Situ Resource Utilization (...
One of the most abundant resources available on Mars is the atmosphere. The primary constituent, car...
NASA has embarked on an endeavor that will enable humans to explore deep space, with the ultimate go...
Oxygen recovery from metabolically-produced carbon dioxide (CO2) is of critical importance for long-...
A long-term goal for NASA is to enable crewed missions to Mars: first to the vicinity of Mars, and t...
A long-term goal for NASA is to enable crewed missions to Mars: first to the vicinity of Mars, and t...
Several novel proposals are examined for propellant production from carbon dioxide and monoxide and ...
The compression of CO2 from the Martian atmosphere for production of O2 via an electrochemical cell ...
Human exploration missions to Mars and other destinations beyond low Earth orbit require highly robu...
An in situ propellant production (ISPP) plant on future Mars robotic missions can produce oxygen (O2...
The atmosphere of Mars, which is 96 percent carbon dioxide (CO2), is a rich resource for the human e...
The multi-NASA center Mars Atmosphere and Regolith COllector/PrOcessor for Lander Operations (MARCO ...
NASA now looks to Mars as the next step in human space exploration. A couple of challenges of such a...
Use of resources available in situ is a critical enabling technology for a permanent human presence ...
Here we report further progress in the development of the MARCO POLO-Mars Pathfinder Atmospheric Pro...
The ultimate destination of NASA's human exploration program is Mars. In Situ Resource Utilization (...
One of the most abundant resources available on Mars is the atmosphere. The primary constituent, car...
NASA has embarked on an endeavor that will enable humans to explore deep space, with the ultimate go...
Oxygen recovery from metabolically-produced carbon dioxide (CO2) is of critical importance for long-...
A long-term goal for NASA is to enable crewed missions to Mars: first to the vicinity of Mars, and t...
A long-term goal for NASA is to enable crewed missions to Mars: first to the vicinity of Mars, and t...
Several novel proposals are examined for propellant production from carbon dioxide and monoxide and ...
The compression of CO2 from the Martian atmosphere for production of O2 via an electrochemical cell ...
Human exploration missions to Mars and other destinations beyond low Earth orbit require highly robu...
An in situ propellant production (ISPP) plant on future Mars robotic missions can produce oxygen (O2...