Essential Equipment to Eliminate Toxins Within the Station – Get FREE Grant Assistance

Essential Equipment to Eliminate Toxins Within the Station – Get FREE Grant Assistance

Firefighters love testing new tactics and tools, but some methods simply don’t address the key issue with EV fires

With the arrival of electric vehicles (EVs) comes many different products to “solve” the problem of extinguishing a fire in an EV’s high-voltage battery.

While there may be a few benefits to some of these products, overall, most fail to address the problem associated with a thermal runaway event in a large lithium-ion battery.

Here’s what you need to know about thermal runaway, and the tools and tactics that will actually get the job done – or at least help.

A high-voltage battery is made up of many cells packed tightly together inside a watertight, fire-resistant box. When a single cell fails, it is essentially a small explosive that produces a tremendous amount of gas and heat (1,200 degrees F) in tenths of a second. The failure is an exothermic chemical reaction that does not require oxygen from the atmosphere to sustain itself. The heat released from each individual cell is transferred to the neighboring cells, which causes them to fail as well.

Once a battery cell fails, it is impossible to extinguish the failed cell as the chemical reaction inside the cell happens far too quickly. The only way to stop a thermal runaway is by directly cooling the cells involved to ensure that the failed cell does not cause the cells around it to also fail.

With that in mind, what tools and firefighters use to stop thermal runaway and extinguish these fires?

Firefighting foams work by creating a blanket to smother a fire. Many types of foam have properties that cool the surrounding area by assisting the water in absorbing heat. Unfortunately, getting the foam to the failed cells is difficult, if not impossible, because the thermal runaway event is happening inside a watertight, fire-resistant box. Additionally, even if it was possible to get the foam inside the box and flood the area with foam, the foam's main purpose is typically to starve a fire’s oxygen supply, but a lithium-ion battery cell does not need external oxygen to burn. Consequently, foam is ineffective at stopping a thermal runaway.

Class D extinguishers contain a powder that is designed to extinguish combustible metal fires. While they are called lithium-ion battery cells, the cells do not contain solid lithium metal, making the extinguisher ineffective. There is also no easy way to get the powder from the extinguisher directly to the cells on fire due to the construction of the box and the speed at which the battery cells fail.

These nozzles are designed specifically to slide under a vehicle and spray cool water at the bottom of the battery box. The water is meant to cool the battery box, ideally stopping the thermal runaway. Unfortunately, extinguishing a fire in the high-voltage battery requires a large, sustained volume of water. The water needs to flow inside the box, directly cooling the battery cells. These nozzles will likely be ineffective due to the design of the battery structure, and the numerous layers between the underside of the vehicle and the battery cells.

A fire blanket is traditionally used to smother a fire to starve it of oxygen. And as noted, a lithium-ion does not need oxygen from the atmosphere to burn, so trying to smother the fire will be ineffective. However, these blankets could be used to contain the fire for exposure protection. A word of caution, though: The battery cells give off harmful and flammable gasses (hydrogen, hydrogen fluoride) that could become trapped under the blanket. Removing the blanket could cause an energetic fire event when the gasses are released. Exposure to hydrogen fluoride could cause permanent damage to firefighter’s lungs and eyes. Always wear proper PPE when around any fire.

Piercing nozzles are designed to puncture the battery box in an effort to deliver large quantities of water inside the box to cool the battery cells. This solution is dangerous due to the electrocution hazard. There is also a possibility of causing more battery cells to fail by crushing cells or shorting out electrical components inside the box. NFPA and EV manufacturers warn against any attempts at gaining access to the inside of the battery box.

NEVER penetrate high voltage components with tools.

While some of these piercing nozzles are designed to be remotely activated, firefighters will eventually have to remove the nozzle from the vehicle. Placement is also a concern, as many battery box structures have cross-car frame rails that are not able to be penetrated. Sealed compartments within the box could also cause a problem for firefighters if the nozzle pierces the wrong compartment and floods an unaffected area. Additionally, the inside of some boxes is filled with polyurethane foam, making it impossible for water to flow through the box.

The truth of the matter is there is no simple solution or tool to stop a thermal runaway in an EV’s high-voltage battery. Directly cooling the battery cells is the best method, however the manufacturers do not give first responders direct access to the inside of the battery box. Trying to cool the battery cells from the outside will only extend a crew's time on scene.

If the battery box is intact and there are no exposures, the best solution is to simply wait for the battery to burn itself out, then extinguish the remaining class A fire. While this strategy is not ideal – and not one favored by aggressive, proactive and eager firefighters – it’s really the best approach. It should only take an hour for the battery to burn itself out. The alternative will be to continually dump water on the vehicle for 6 to 8 hours.

Patrick Durham is the captain and training officer at Station 4 on the Troy (Michigan) Fire Department. During his 15 years in the fire service, he has trained on a wide variety of topics. Durham is Instructor 1 and Officer 2 certified. He is also a mechanical engineer and is currently working on advanced development projects in the automotive industry. Most recently, Durham has designed a multi-material battery structure for electric vehicles. Durham can be reached via email.

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