NASA astronaut Kate Rubins performs tests and replaces parts inside the Bigelow Expandable Activity Module (or BEAM), a privately built inflatable room, on the International Space Station on Sept. 5, 2016.
An inflatable space habitat that could save weight and volume on future missions is showing how well it can do its job. The verdict: So far, it works, and that gives the habitat a better chance of being part of future space efforts.
Called the Bigelow Expandable Activity Module , or BEAM, the habitat is an inflatable spheroid made of fabric that starts off folded into a shape like a flattish cone with the top cut off. It was originally launched to the International Space Station (ISS) on April 8.
The first tests were in May. Crewmembers aboard the ISS expanded BEAM, using low pressure, and then allowed the air tanks inside the habitat to open and pressurize it to the same level as the space station — approximately one atmosphere. [The Bigelow Expandable Activity Module in Pictures ]
The inflatable BEAM module expands into shape at the International Space Station in this sped up time-lapse animation by NASA.
Credit: NASA TV
Sensors inside the BEAM checked the module’s temperature and how well its structure was responding to pressure. Astronauts didn’t enter the BEAM until June, though, as there were extensive checks for leaks. (They found none.) NASA astronaut Jeff Williams was the first to enter the BEAM, and he added extra sensors to monitor the atmosphere inside it.
So far, NASA and BEAM’s builder, Las Vegas-based company Bigelow Aerospace , say that the module is performing as expected. Besides offering extra space, it also provides protection from radiation that’s similar to what’s offered by the other modules on the ISS, NASA officials said.
Credit: Karl Tate, SPACE.com contributor
This NASA graphic shows the BEAM module temperature readings at the International Space Station from June 7 to Aug. 22, 2016.
Credit: NASA
It hasn’t all been roses; an early test of the BEAM showed it inflating more slowly than expected, which was chalked up to the module being folded up inside its launch fairing for a year. In a press release, Steve Munday, BEAM manager at NASA’s Johnson Space Center in Houston, said the BEAM also was warmer than astronauts thought it would be. One thought is that the fabric layers aren’t in contact with each other as much as designers thought they would be, which makes the thermal insulation more efficient.
Warmer is probably better, though, Munday said, because a cooler-than-expected BEAM would suffer from condensation on the interior walls.
The BEAM also hasn’t had any collisions with space debris, nor has it put any additional out-of-the-ordinary loads on the ISS life support or power systems.
Further analysis will focus on the effects of cosmic rays on the interior, to see what additional shielding might be needed on deep-space missions. If the BEAM works well, it could help pave the way to habitats that are folded into the fairing of future spacecraft, saving space and weight, NASA officials said.
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