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posted by martyb on Tuesday March 31 2020, @12:42AM   Printer-friendly
from the are-you-taking-the-piss? dept.

Arthur T Knackerbracket has found the following story:

The [housing] modules that the major space agencies plan to erect on the moon could incorporate an element contributed by the human colonizers themselves: the urea in their pee. European researchers have found that it could be used as a plasticizer for concrete used to build structures.

[...] Transporting about 0.45 kg (1 pound) from the Earth to space costs about $10,000, which means that building a complete lunar module in this way would be very expensive. This is the reason that space agencies are thinking of using raw materials from the moon's surface—or even those that astronauts themselves can provide, such as their urine.

Scientists from Norway, Spain, the Netherlands and Italy, in cooperation with ESA, have conducted several experiments to verify the potential of urea as a plasticizer, an additive that can be incorporated into concrete to soften the initial mixture and make it more pliable before it hardens. Details are published in the Journal of Cleaner Production.

"To make geopolymer concrete that will be used on the moon, the idea is to use what is already there: regolith (loose material from the moon's surface) and the water from the ice present in some areas," explains one of the authors, Ramón Pamies, a professor at the Polytechnic University of Cartagena (Murcia), where various analyses of the samples have been carried out using X-ray diffraction. "But moreover, with this study, we have seen that a waste product, such as the urine of the personnel who occupy the moon bases, could also be used. The two main components of urine are water and urea, a molecule that allows the hydrogen bonds to be broken and, therefore, reduces the viscosities of many aqueous mixtures."

Using a material similar to moon regolith developed by ESA, together with urea and various plasticizers, the researchers manufactured various concrete cylinders using a 3-D printer and compared the results.

The experiments [...] revealed that the samples made with urea supported heavy weights and remained almost stable in shape. Their resistance was also tested at a temperature 80°C; it was found to increase even after eight freeze-thaw cycles like those on the moon.

Journal Reference:
Shima Pilehvar et al. Utilization of urea as an accessible superplasticizer on the moon for lunar geopolymer mixtures, Journal of Cleaner Production (2019). DOI: 10.1016/j.jclepro.2019.119177


Original Submission

 
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  • (Score: 2, Interesting) by khallow on Tuesday March 31 2020, @01:43AM (5 children)

    by khallow (3766) Subscriber Badge on Tuesday March 31 2020, @01:43AM (#977464) Journal
    A big problem here is that you're using a very scarce nitrogen source for concrete. Sulfur would work better because it's somewhat more common and not as heavily needed for biological processes.
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  • (Score: 0) by Anonymous Coward on Tuesday March 31 2020, @02:06AM (1 child)

    by Anonymous Coward on Tuesday March 31 2020, @02:06AM (#977473)

    Battering Rams have rotten khallow ! To you are to say : Get Pregnant !

  • (Score: 3, Interesting) by The Mighty Buzzard on Tuesday March 31 2020, @04:13AM (2 children)

    A bigger problem is we don't have plumbing run to the moon. They're going to very much need that piss for drinking unless we're sending up rockets with nothing but potable water way more often than anything else.

    --
    My rights don't end where your fear begins.
    • (Score: 0) by Anonymous Coward on Tuesday March 31 2020, @06:51AM (1 child)

      by Anonymous Coward on Tuesday March 31 2020, @06:51AM (#977541)

      Both use cases (construction and fertilizer) assume that the urine is distilled to produce drinking water, with concentrated urea as a byproduct.