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Revision as of 07:21, 9 August 2016
Bioreactor
The Bioreactor
The bioreactor is the final product of our project. We aim to develop a closed system that can – for the most part – sustain itself, through a combination of our modified E. coli and an autotroph bacteriumsuch as cyanobacteria) that can convert carbon dioxide to simple sugars. An example of acyanobacterium that can excrete its formed sugars is the PCC 7942 strain modified by Niederholtmeyer et al. (2010). [1]
Regolite (Martian soil) will enter the bioreactor after which it seals shut. Water will then flow through the regolite, exploiting the excellent dissolving property of perchlorate to cleanse the soil. The challengelies in cleansing the water from perchlorate, which we achieve through our modified E. coli . The contaminated water will pass through a series of tubes, where a carbon and a nitrogen source are added for incubation. When the mixture is complete, the perchlorate containing medium will travel to the E. colonizer compartment, where incubation will take place until perchlorate is reduced to sub toxic levels 1, 2 .To achieve minimal toxic levels, the incubated medium (containing mainly water, E. colonizer waste products and remaining perchlorate) will pass through a liquid filter, while the gasses pass through a high-efficiency particulate arrestance (HEPA) filter, to reduce remaining perchlorate to trace amounts.
The filtered gasses produced during incubation (mainly carbon dioxide and oxygen) will be transported to the compartment where the autotroph bacterium resides, to saturate oxygen levels and turn carbon dioxide to simple sugars. These sugars can then be used to complement the medium of E. colonizer . This way, we recycle gasses and liquids as much as possible, avoiding the extremely high costs of transportation to Mars. The concentrated oxygen is transported to a tank for use in the habitation module.
Both tanks (that of E. colonizer and the cyanobacteria) will be covered by a thermal jacket, which acquires heat from the desalination unit’s waste heat. This unit ensures that chloride and other ions do not accumulate over consecutive runs. The cleansed, desalinated water will dissolve the perchlorate in a new batch of regolite optimally. The perchlorate-free regolite can be used safely for growth of crops.
The outer hull will provide resistance against the harshest radiation, while allowing some light to enter the compartment of the autotroph bacterium.
Footnotes
[1] The Environmental Protection Agency (EPA) suggests a Reference Dose (RfD) of 0.0007 mg/kg/day for perchlorate, corresponding to a drinking water equivalent level (DWEL) of 24.5 ppb. For more detail, we refer to the report by the Agency for Toxic Substances & Disease Registry
References:
