Astronaut Pee Will Help Build Bases on the Moon | Universe Today
Categories: esaMoon

Astronaut Pee Will Help Build Bases on the Moon

In the next few decades, NASA, the European Space Agency (ESA), China, and Russia all plan to create outposts on the lunar surface that will allow for a permanent human presence. These proposals seek to leverage advances in additive manufacturing (aka. 3-D printing) with In-Situ Resource Utilization (ISRU) to address the particular challenges of living and working on the Moon.

For the sake of their International Moon Village, the ESA has been experimenting with “lunacrete” – lunar regolith combined with a bonding agent to create a building material. But recently, a team of researchers conducted a study (in cooperation with the ESA) that found that lunacrete works even better if you add a special ingredient that the astronauts make all by themselves – urine!

More specifically, the chemical urea, an organic compound found in the urine of animals. The team responsible for this find was led by Shima Pilehvar of Østfold University College and included members from Norway, Spain, the Netherlands, and Italy. Their research, which recently appeared in the Journal of Cleaner Production, was supported by the ESA’s European Space Research and Technology Centre (ESTEC).

This 1.5 tonne building block was produced as a demonstration of 3D printing techniques using lunar soil. Credit: ESA

As they describe in their study, the team conducted several experiments to determine the potential of urea to act as a plasticizer. When incorporated into concrete, they wanted to see if it would soften the initial mixture and make it more pliable prior to hardening. Testing this involved the use of simulated lunar regolith developed by ESA with urea and various plasticizers and then 3-D printing the resulting product.

Ramón Pamies, a professor with the Polytechnic University of Cartagena (UPCT) and a co-author on the study, described how lunacrete will be made by astronauts in a recent Sinc press release:

“To make the geopolymer concrete that will be used on the moon, the idea is to use what is there: regolith (loose material from the moon’s surface) and the water from the ice present in some areas. 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 this body fluid are water and urea, a molecule that allows the hydrogen bonds to be broken and, therefore, reduces the viscosities of many aqueous mixtures.”

The experiments were carried out at Østfold University College in Norway, where the samples were fashioned and tested. They were also subjected to analysis at UPCT using a technique known as X-ray diffraction. What the experiments showed was that samples made with urea were able to tolerate hight weight loads while remaining almost entirely in the same shape.

Multi-dome lunar base being constructed, based on the 3D printing concept. Credits: ESA/Foster + Partners

To see how they would endure extreme temperature variations, like those present on the Moon, the samples were also heated to 80 °C (176 °F) and then frozen, over and over. After eight freeze-thaw cycles, their resistance was tested again and found to be even stronger. In short, these tests showed that another in-situ practice (using the latrine) could aid in the construction of lunar bases that can handle the elements.

While these results are encouraging (if a bit ), the team stresses that further testing needs to be done and an extraction process is yet to be designed. As Anna-Lena Kjøniksen, a researcher from Østfold University College who supervised the study, indicated:

“We have not yet investigated how the urea would be extracted from the urine, as we are assessing whether this would really be necessary, because perhaps its other components could also be used to form the geopolymer concrete. The actual water in the urine could be used for the mixture, together with that which can be obtained on the Moon, or a combination of both.”

The team also stressed the need for further testing to see which building material would be optimal for the creation of lunar bases. In addition to resilience and tolerance of extreme heat and cold, it will also need to be something that can be mass-produced by 3-D printers. Alas, these are just one of the challenges of building a lunar base.

But as this study shows, such challenges provide the opportunity to get creative. As get closer and closer to the point where key lunar missions are scheduled – like Project Artemis, just for starters – we can expect that more creative solutions will be proposed.

Further Reading: Sinc, Journal of Cleaner Production

Matt Williams

Matt Williams is the Curator of Universe Today's Guide to Space. He is also a freelance writer, a science fiction author and a Taekwon-Do instructor. He lives with his family on Vancouver Island in beautiful British Columbia.

Recent Posts

About 3.5 Million Years Ago, a Stream of Gas Outside the Milky Way Would Have Lit Up the Night Sky

It's a truism to point out that modern humans have only been around for the…

10 mins ago

What are the Odds of Life Emerging on Another Planet?

A new study by Prof. Kipping of Columbia University indicates that extraterrestrial life should be…

2 hours ago

Study of 200,000 Galaxies Reveals the Entire Universe Might Have Been Spinning in One Direction Early On

A new study finds evidence that the universe as a whole is rotating, and that…

4 hours ago

Barred Spiral NGC 3895 Captured by Hubble

NGC 3895 is a barred spiral galaxy in the Ursa Major constellation. It's about 145…

4 hours ago

New Simulations Show How Black Holes Grow, Through Mergers and Accretion

One of the most pressing questions in astronomy concerns black holes. We know that massive…

21 hours ago

Want to Mine Ice on the Moon? Scientists Create a Map for Where to Start

The first lunar maps consisted of simply the best images of the Moon from Earth-based…

22 hours ago