This is where Karl-Johan’s love of 3D printing provided the missing puzzle piece. Since supply runs are incredibly limited and involve long time lags between a stated need and the actual delivery, it’s crucial that the inhabitants have some means of maintaining and repairing their own habitats. Knowing that you have some control over your nutrient supply is a huge relief when the only other source of nutrition is scheduled supply deliveries that are dependent upon regular, successful rocket launches that are also very expensive.įrom Prototyping to Manufacturing With 3D Printing And the garden goes a long way in reducing the tedium while simultaneously increasing the sustainability factor, a non-trivial consideration due to the extreme isolation. The foldable shape means inhabitants can have more than one room, making the space feel more like a home than a hotel even the small change of scenery that comes from moving between the sleeping area and the vertical garden area can help to mitigate some of the psychological stress of being confined in a small space. On top of all the other necessary living-space goods like furniture and electronics, they had to include space for the batteries (powered by exterior solar panels), an algae farm that powers the life support systems, and water. To combat claustrophobia, the overall structure makes use of origami folding techniques to maximize usable living space while minimizing shipping volume, which always comes at a premium. In space, your habitat is your entire world there is no nature or change of scenery,” said the duo.Īs such, they catered their design to accommodate as many of those human needs as possible. “If we are trying to settle on other planets, we must be very careful how we design the homes. Research indicates that the isolation of space is difficult to cope with for extended periods, especially when adding in a touch of claustrophobia and a dash of monotony that come with space exploration. Rather than recreate the sterile, scientific environment found on the International Space Station, their habitat factors in the limits of the human psyche, incorporating several features to enhance what the Danish call ‘hygge,’ or coziness. Those are the clients Karl-Johan and Sebastian were considering when designing their lunar habitat. An algae reactor will be placed in the core of the habitat and provide highly nutritious food.As rocketry continues to advance, the cost of space travel will decrease, making it more feasible for non-astronauts to join in on the fun. In contrast to the tank-like exterior, the interior will attempt to follow the principles of hygge and will be equipped with systems that promote a zero-waste lifestyle. Solar panels will be installed around the perimeter. The exterior must be engineered to withstand temperatures of -40 degrees Celsius, wind speeds of 90 kilometers per hour and even polar bear attacks. Inspired by origami, the Lunark habitat will be built from reinforced folding panels to allow for a unique expanding design that saves space during transport and expands by 560% by volume upon final installation. “The experiment will develop and test a radically different moon habitat where architecture helps to counteract monotony, claustrophobia and psychological stress.” The designers have chosen northern Greenland as their testing grounds - and are looking at locations near Thule Air Base - because of the island’s extreme climate, remoteness, barren landscape and absence of normal circadian rhythms. “The ultimate goal is to develop the best future moon habitat,” the duo said.
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