Inflatable module headed to International Space Station

A new type of flexible module is going to be added to the International Space Stationon a two-year trialto see if it will be suitable for human occupation. If proven successful, it could lower the cost of future space habitation and colonization.

In space, weight equals moneyto the tune of $10,000per kilo, depending on the the rocket. It is much cheaper to send up a small package and inflate it in spacethan build it full-size on the ground.

Bigelow Aerospace, a private space exploration firm based in Las Vegas, has been building inflatable structures for space since 1999. That includetwo unmanned prototypes called Genesis 1 and II that were sent into orbit as proof-of-concept projects.

The idea is that an inflatable module can provide 210 per centmore volume, with only 33 per centmore weight, than some of the existing all-metal modules currently on the space station.

The latest module called BEAM(Bigelow Expandable Activity Module) is a small test version of what the company hopes will become a complete inflatable space habitat, the BA330. Able to hold a crew of six, it could serve as a scientific laboratory, oran orbiting hotel for the ultimate high-adventure tourist. Variations on the structure couldbe used as low-cost habitats on the moon or Mars.

Improving an existing concept

Inflatable structures have been around since the early days of space exploration.In fact, the first American passive communication satellite, Echo 1, was a mylar balloon as tall as a 10 storey building.

NASA included a flexible module in the original design for the International Space Station, but it was cancelled for budget reasons.So Bigelow Aerospace took up the task and is under contract to NASA to prove the technology works.

The biggest concern is the safety of astronauts in structures that are not made of metal. Images of fabric being torn to shreds by micro-meteorites or space debris are easy to imagine.

In fact, the company says itsinflatable structures are safer than metal ones. This is the result of advanced materials that can absorb impacts, and a thicker outer layerthat includes water, whichis not only tough, but also provides protection against radiation.

The BEAM module will be carried to space on a Falcon Rocket, built by another private company, Space-X, which has been delivering supplies to the space station.

Astronauts will use Canadarm 2 to attach the module to one of the ports on the station, where it will then be expanded to full size. During this test flight, astronauts will spend some restricted time inside the module to monitor conditions, check for leakage, look for damage from micro-meteorites, and measureradiation levels.

Following the test, the module will be jettisoned to burn up in the atmosphere.

Domes and flexible structures have always been a part of science fiction portrayals of the future. But until now, much of the focus in real lifehas been on building bigger rockets to get us to space, and constructing a rigid and very expensive space station. Bringing these space bubbles to reality could finally make it cheaper to actually live there.