Thermal Imaging: "Taking It To the Streets"

As thermal imaging becomes more mainstream in the fire service, the potential uses of the technology expands on a daily basis. Many firefighters think of a thermal imager as a “firefighting tool,” and immediately relegate its use to those incidents...


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As thermal imaging becomes more mainstream in the fire service, the potential uses of the technology expands on a daily basis. Many firefighters think of a thermal imager as a “firefighting tool,” and immediately relegate its use to those incidents that involve charged hoselines and burning structures. A thermal imager, however, is a versatile tool that has uses and potential applications at a number of emergency incidents.

Any time your eyes are not giving you all of the information you want, or giving the information as rapidly as needed, the thermal imager may assist to make your efforts more successful and less time consuming. There are also times when an imager can reveal information you never knew existed.

Let’s look at some “non-structural” applications as we explore outdoor uses for thermal imagers. I have traveled throughout the country and around the world, working with all sizes of fire departments, and have seen a broad range of levels of understanding about the limitations and applications for fire service thermal imagers. It’s always a good refresher to review some of the outdoor uses of thermal imagers that while obvious to some, may not be considered by others.

Non-structural uses for thermal imagers

There are dozens of non-fire applications for your thermal imager. One example is motor vehicle accidents. Determining how many occupants were in the vehicle immediately prior to the accident can help the incident commander determine potential patient count. When using a thermal imager to check for warm spots in vehicle seats, remember thermal imagers do not see through glass, so the window or door must be opened, or removed, before you make the scan. Also, scan multiple seats at the same time for comparative purposes. Looking only at one seat, however, doesn’t always tell you all the information. What you are looking for is contrasting heat signatures. This application is particularly useful when dealing with rollovers or overturned vehicles.

If you find a child seat installed or ejected, be sure to check for indications of a thermal contrast that may suggest it was occupied at the time. Many of us have had to deal with the stress of locating a child seat at the scene of an accident and trying to determine whether it was occupied. A scan with a thermal imager can quickly reduce your anxiety level.

A common question I get from firefighters during trainings is “How long will the thermal contrast remain after the person has left the seat?” The answer is simple – that depends. There are many conditions that play a role in the contrast reduction over time. These will include ambient temperature, humidity, the seat and clothing materials involved and the amount of time the person was in the seat. But, as a “rule of thumb” you can usually see some contrast for 20 to 30 minutes.

The same is true for motorcycle accidents. Due to the frequent high speeds of these accidents, victims can be thrown great distances or out of sight of first responders. The thermal contrast of the seat(s) should be able to tell you how many victims you may be dealing with. Get your crews comfortable with scanning seats to determine pre-crash occupancy levels. It could save you some time on the scene and maybe even someone’s life.

I was looking at an online picture of one of my former departments trying to tackle a trash-truck fire that had a fire develop seemingly deep inside the refuse load. With no trash truck driver initially on the scene, firefighters didn’t have the immediate option of dumping the load onto the highway to save the truck body and chassis.

As I reviewed the pictures, none of the crew deployed the camera that I know to be on the apparatus. My first thoughts were “what a perfect time to deploy the thermal imager.” Once the load was finally dumped on the street, the officer grabbed the thermal imager from the apparatus and used it to position the crew toward the hottest parts of the refuse pile, which they segregated from the rest of the trash, saving countless hours of overhaul work. This was all done while being directed by the officer using the imager.

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