NASA researchers tested more than 200 material combinations before settling on the best for prototype fire shelters.

It was a year after workers at the NASA Langley Research Center in Virginia had developed an inflatable heat shield for spacecraft when Mary Beth Wusk heard about the deadly Yarnell Hill Fire that killed 19 firefighters in 2013.

She decided they had to do something.

“When we heard about what happened at Yarnell Hill with the fires and the loss of the firemen, we talked about it with the team,” said Wusk, an integration manager in the Game Changing Development Program Office at Langley.

“We said, ‘Hey is there any chance that our materials could be the difference in those entrapment shelters that they are working on? Is there anything we could do to improve the potential of survivability?” she said.

Those questions led to the creation of CHIEFS — Convective Heating Improvement for Emergency Fire Shelters — a team that is working to take its knowledge of heat-shield technology for space missions and use it to help improve fire shelter technology here on Earth.

Wusk said the fire shields being used today by firefighters were developed in 2002 and “work extremely well if the fire is not directly on you.”

“So these shelters that we are working with are looking at trying to protect the firemen beneath the shelter if there is more of a direct flame on the shelter itself,” she said.

“We had launched in 2012 this inflatable heat shield that had this thermal protection system on it,” Wusk said. “We wanted to know what are the chances of our materials working to improve the potential of survivability for these firefighters?”

Josh Fody, a thermal analyst and project lead for CHIEFS, said the team tested more than 200 different combinations of materials to find the right ones to begin building prototype fire shelters for field testing.

The U.S. Forest Service conducted the first tests in June at Fort Providence in Canada’s Northwest Territories. Fody said the team built the prototype shelters in five months, “which is a real rapid turnaround for us,” for the chance to do “real environment, real fire environment testing.”

Be the first to know

* I understand and agree that registration on or use of this site constitutes agreement to its user agreement and privacy policy.

“We had a very successful test period there, just learning real-world lessons, you know, things we hadn’t thought of testing small things in a laboratory,”

Fody described the intensity of wildfire conditions they tested under in Canada, saying he could feel the heat from 100 yards away.

“It is really impactful, it is powerful,” he said. “It makes you think, ‘My lord, what if I was stuck in that situation and all I had to rely on was this piece of gear that some people had developed to try and give me a shot at surviving this?’”

He said a second round of tests was held in September in a full-scale fire testing facility at the University of Alberta in Edmonton. They are using information from those tests to develop “Generation 2 fire shelters” for testing in the spring.