Sabatier/Water Electrolysis Process

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Schematic of Methane production system for a Single SpaceX Starship over a period of two years. Electrolysis and hydrogen storage are off the shelf. Sabatier reactor needs to be developed.

The Sabatier reaction and water electrolysis are used to convert atmospheric carbon dioxide and water extracted from regolith, or the atmosphere, into propellant. Hydrogen shipped from Earth could also be used in certain scenarios to avoid the need for the electrolysis process[1].

The water electrolysis separates water into hydrogen and oxygen. In is by far the most energy intensive stage in the process. The oxygen is stored for later use in a vehicle propulsion system. The hydrogen is combined with atmospheric CO2 to create methane and water. The chemical reaction is the following:

CO2 + 4H2 → CH4 + 2H2O -165 kJ/mol

The reaction takes place in the presence catalysts at a temperature between 300 and 400C. A nickel catalyst is the most likely candidate, or a catalyst made out of ruthenium or alumina might be used.

The Sabatier process produces a ratio of 4:1 of oxygen to methane, slightly more than the ratio used for propulsion, that is between 3.6 and 3.8 :1. Excess oxygen can be used for the colony atmosphere or stored for future use.

If nickel is produced in-situ on Mars, additive printing could be used to prepare replacement electrodes for the Sabatier process.

Detailed process and alternatives

The illustration shows just one of the possible process arrangements. Compression between the Electrolysis unit and the Sabatier unit might be avoided with other choices of equipment, and the storage tanks might be replaced by metal hydride reservoirs. If dust storms are particularly bad during a synod, the production rate might be too low to complete the refueling of a transportation vehicle. Use of nuclear power rather than solar power would allow for continuous production and reduce the mass of equipment required.

The electrolysis unit uses an electrolyte, into which water is added. An electrical current between two electrodes splits the water molecules into hydrogen and oxygen, with the hydrogen migrating to one electrode and the oxygen to the other.

Heat rejected from the process can be used to melt and heat the input ice, as well as heat the settlement. However, a lot of the heat is at very low temperatures an may have to be rejected into the martian environment.

See Also

References

  1. Compact and Lightweight Sabatier Reactor for Carbon Dioxide Reduction https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20120016419.pdf