Difference between revisions of "List of ISRU"
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{{Bootstrap}} | {{Bootstrap}} | ||
[[File:Colony ISRU.png|thumb|600x600px]] | [[File:Colony ISRU.png|thumb|600x600px]] | ||
| − | The idea of '''In-Situ Resource Utilization (ISRU)''' is essential for a Martian colony. As part of the [[Mars Direct]] initiative it aims at the production of propellant material for a Mars return mission. The following issues are specifically considered: | + | The idea of '''[[In-situ resource utilization|In-Situ Resource Utilization]] (ISRU)''' is essential for a Martian colony. As part of the [[Mars Direct]] initiative it aims at the production of propellant material for a Mars return mission. The following issues are specifically considered: |
*[[Sabatier/Water Electrolysis Process]] (methane fuel, CH4) | *[[Sabatier/Water Electrolysis Process]] (methane fuel, CH4) | ||
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*Water Electrolysis (Hydrogen-Oxygen) | *Water Electrolysis (Hydrogen-Oxygen) | ||
*Glass production (SiO2) | *Glass production (SiO2) | ||
| − | *Steel production | + | *Steel production |
*Atmospheric compression and separation | *Atmospheric compression and separation | ||
*Water treatment | *Water treatment | ||
Revision as of 12:12, 6 April 2019
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The idea of In-Situ Resource Utilization (ISRU) is essential for a Martian colony. As part of the Mars Direct initiative it aims at the production of propellant material for a Mars return mission. The following issues are specifically considered:
- Sabatier/Water Electrolysis Process (methane fuel, CH4)
- Reverse Water-Gas Shift Reaction
- Fischer-Tropsch Reaction (hydrocarbons)
- Water Electrolysis (Hydrogen-Oxygen)
- Glass production (SiO2)
- Steel production
- Atmospheric compression and separation
- Water treatment
- Carbon dioxide electrolysis
- Atmosphere absorption methods
ISRU is also part of the NASA base plan() as well as the SpaceX Mars colonisation plans().
