When SpaceX launches its resupply mission to the International Space Station (ISS) in early December, it will include a unique device created by UAB engineers. And scientific experiments conducted in space may never be the same.
Over the past two years, researchers from the Engineering and Innovative Technology Development (EITD) group, have designed and built three rapid-freeze devices, one of which will be included in the upcoming launch. The device will enable astronauts to quickly freeze biological samples down to negative 190 degrees Celsius.
“When you’re freezing biological samples as part of a scientific experiment, the most important thing is to freeze the sample as rapidly as possible,” said EITD Mechanical Engineer Brandon Smith, who also earned his Master’s degree from the UAB School of Engineering. “In laboratories on earth, they will dunk the sample in liquid nitrogen, but it wouldn’t be safe to use liquid nitrogen in space. So NASA needed something on the space station that could freeze samples comparable to liquid nitrogen on Earth.”
EITD took on the challenge as part of a $3.6 million contract with NASA. The completed devices will freeze from 20 degrees Celsius down to negative 60 degrees within one minute and down to negative 140 degrees within five minutes. With those freeze rates, samples frozen in space will be comparable to ones frozen in Earth-bound experiments.
From Southside to Space
line of coolers and freezers that are used, both on board the ISS and in transit. While in service on the ISS, the devices are constantly monitored by engineers at the EITD’s UAB remote operations facility.
The upcoming mission is not the first time UAB hardware has been launched into space. In fact, it’s not at all unusual. For more than a decade, the EITD has designed, built, and maintained a“We are one of the largest payload developers in the history of the Space Station,” Smith said. “Millions of dollars of science goes in and out of our coolers. It’s fun to work on, but it’s also a big responsibility to make sure that the science community is able to meet expectations using our hardware.”
Smith says there are no plans for EITD personnel to be on site at the upcoming launch, but he and other team members who worked on the rapid-freeze project will be watching from UAB when their many months of work is launched into orbit.
“It’s pretty incredible,” he said. “I grew up loving all things space, so to be able to work on something like this and see it go up into space is a really incredible opportunity.”