Some day, humans will live on Mars. That’s the vision of some of today’s highest-profile forward-thinkers. This week, in an op-ed for CNN, President Barack Obama wrote that he hopes America will send humans safely to Mars and back by the 2030s. And late last month, SpaceX founder Elon Musk announced plans to colonize Mars within the next 50 to 100 years, with the help of the most powerful rocket ever, sending up a reusable spaceship that could carry a hundred humans at a time to the Red Planet.
But once the expat Earthlings land, what kind of structures will they live in? Scientists are working on myriad answers to that question (among others). One major obstacle to homebuilding on Mars is the limited capacity of any realistic spacecraft to carry all the materials needed to erect substantial, durable habitats. Ideally, the pioneers would use local materials, just as early European settlers in North America chopped down pines to build log cabins. With no forests on Mars, what can 21st-century space settlers use?
There is water on Mars—most of it frozen. That’s one of the attractions that make the fourth rock from the sun a good candidate for colonization. (It also has an atmosphere to absorb radiation, a surface temperature range that could be bearable with the right protective gear, and a day/night cycle similar to ours at 24 hours, 37 minutes.)
So when NASA held its 3D-Printed Habitat Challenge last fall, one team of designers tapped H20 as its substance of choice to fabricate homes. Team Space Exploration Architecture (SEArch) and Clouds AO topped 165 entrants with their design, Ice House. The design takes a page from Alaska’s Inuit people, who for centuries have built temporary shelters out of snow during hunting expeditions. Envisioning a settlement in Mars’ northern climes, the NASA competition winners proposed that frozen water be harvested from the subsurface and run through a massive 3D printer to craft a sleek shell of ice that would cover the astronauts’ lander (which would serve as the living quarters), sealing it in a pressurized, habitable environment. Then another, still larger ice shell would be created to cover the first, not unlike a Russian nesting doll.
The multi-layered setup is designed for redundancy—you’d probably feel safer with a backup shell, wouldn’t you?—but the general purpose of the ice shell is to give the colonists a kind of artificial yard: they could obtain a feeling of being outdoors without having to suit up and venture out into the planet’s harsh environment. That’s because the translucent outer ice shell, while repelling cosmic rays, would let in sunlight, something vital to the colonists’ food garden, not to mention their sanity. And with temps in the region (Alba Mons) consistently below freezing, the shell would stand year-round without melting.
But what if the explorers wanted to conserve that water for other uses, like drinking it? Continue Reading ›