Not Your Average Vehicle Fire: Commercial Vehicle Tactics by Michael Daley On Apr 15, 2013
Photo 11 - Commercial vehicle fires are not limited to large trucks; the fuel loads in all types of commercial vehicles will require a significant response.
Photo credit: Photo by Michael Daley
Photo 1 - Fatal truck fires have a frequency six times greater than that of other motor vehicles.
Photo credit: Photo by Michael Daley
Photo 2 - A heavy-duty commercial vehicle has a gross vehicle weight rating over 26,001 pounds.
Photo credit: Photo by Michael Daley
Photo 3. - Disconnecting the batteries may be problematic; in this vehicle, the batteries are located under the driver's seat in the cab area.
Photo credit: Photo by Michael Daley
Photo 4 - This Diesel Emission Fluid (DEF) tank is located on the side of the tractor. While this fluid is reported to be non-flammable, it has proven to be corrosive to some metals.
Photo credit: Photo by Michael Daley
Photo 5 - A refrigeration control unit mounted in the front of a trailer. The battery compartment is in the lower left corner, while the fuel tank is overhead of the engine.
Photo credit: Photo by Michael Daley
Photo 6 - At each drive wheel there is a dual brake chamber. These chambers are set with a spring pressure of 180 PSI, and can fail violently when heated to failure temperatures.
Photo credit: Photo by Michael Daley
Photo 7 - The fuel tank is located directly below the driver side door, directly exposed from the cab fire.
Photo credit: Photo by Michael Daley
Photo 8 - Upon arrival, of paramount importance is determining what is inside the trailer. This will aid the IC in determining the resources needed for handling the incident.
Photo credit: Photo by Michael Daley
Photo 9 - At this rollover incident, large rolls of paper had broken free of the trailer, shredding the trailer roof. Had this been a fire instead, the roof assembly would have failed quickly from heat exposure.
Photo credit: Photo by Michael Daley
Photo 10 - The trailer in the foreground has been completely burned away, while the intermodal container has stayed relatively intact. Heat exposure still requires a thorough overhaul of the trailer's contents.
Photo credit: Photo by Michael Daley
Photo 11 - Commercial vehicle fires are not limited to large trucks; the fuel loads in all types of commercial vehicles will require a significant response.
Photo credit: Photo by Michael Daley
Photo 1 - Fatal truck fires have a frequency six times greater than that of other motor vehicles.
Photo credit: Photo by Michael Daley
No matter what the product, odds are very good that it got to the shelves at the store via a commercial vehicle. In fact, national statistics show that nearly 70% of commercial freight activity involves transport by truck. With this much activity, so comes the increased potential of serious accidents and fires involving these vehicles. Nationwide, fatal fires with trucks make up more than 17% of all fatal highway fire incidents, a frequency that is six times greater than that of other motor vehicles (see Photo 1). Handling these fires can be difficult, but focusing on the basics of compartment fire behavior can help in handling these incidents.
These commercial vehicles can be broken down by class. There are eight classes, based upon gross vehicle weight rating (GVWR) of the vehicle. For our use, it is easier to keep them broken into three broad categories:
Light Duty: Commercial vehicles weighing between 6,000 – 14,000 pounds GVWR
Medium Duty: Commercial vehicles weighing between 14,001 – 26,000 pounds GVWR
Heavy Duty: Commercial vehicles weighing over 26,001 pounds GVWR (see Photo 2)
There are very little similarities between each truck, as many of them are custom-built for usage as ordered. But there are common inherent hazards that are important to deal with when facing a fire within one of these vehicles. We will look closely at each of these based upon the systems they interact with.
Vehicle Hazards
One of the primary hazards rescuers will encounter will be the electrical systems that power the vehicles. The most common system will be the 12-volt system, but it will look much different than the automobile 12-volt system. Commercial vehicles will utilize multiple batteries to provide enough power to turn the engine over and provide voltage for the rest of the vehicle. Batteries will be wired either in Series or Parallel. Series wiring involves sending a path of current through each battery in a single direction. In this case, disconnecting the negative post closest to the frame will break the loop and shut down the electrical system. Parallel wiring involves sending paths of current through each battery concurrently. In this case, the rescuer must disconnect all of the negative connections to power down the system (see Photo 3).
The primary fuel source for these types of vehicles will be diesel fuel, but many other types are still in service. Diesel fuel has four properties that make it popular for use: it is combustible, and provides a more efficient “burn” in the cylinder when it is atomized; it removes heat from the fuel system components; it acts as lubrication for fuel injection parts; and the viscosity of the fuel limits gelling, aiding in flow in colder weather, as long as water can be kept from contaminating the fuel system. Next to the fuel tank in newer vehicles is the Diesel Emission Fluid Tank (DEF Fluid). This material is a water-based Urea solution that is injected into the exhaust as it moves through the engine, where it vaporizes and decomposes to form Ammonia and Carbon Dioxide, reducing emissions from the vehicle (see Photo 4). While this fluid is reported to be non-flammable, it has proven to be corrosive to some metals. Fuel/fluid fires and releases should be treated as a volatile mix of flammables and corrosives and should be treated accordingly.
Liquid fuel loads for these vehicles do not only sit in saddle tanks on the sides of the vehicle; based upon application, there may be other powered components on the vehicle. For example, tractor trailers that haul perishable goods carry them in refrigerated trailers, or “Reefer Units,” so to speak. It is important to note the debate over flammability of the refrigerant used in these systems: mainly R134A (see Photo 5). This has replaced R-12 as the primary refrigerant in motor vehicles. The properties of concern to this material include Hydrogen Fluoride and Carbonyl Halides when it is heated. However, it is generally considered to be “non-flammable.” That being said, some studies have proven that the potential for combustibility will increase when dealing with elevated temperatures (fire, for example). So do not be surprised when a hostile event results from this material being exposed within the fire.
Commercial vehicles utilize pneumatic controls for various devices on the truck. It can be used for climate control settings, wipers, split-shift transmissions, starting systems and suspension/cab ride systems. However, the primary function is the vehicle braking system. Air will be necessary to both release and apply the brakes for the vehicle. There will be a dual air system in these vehicles; the Primary Air System is used for braking, and the Secondary Air System will run other functions on the truck. Keep in mind that if the primary system was to suffer a catastrophic failure (leak), the secondary system will provide enough air to control the braking system for about a minute. After about a minute, as the air exits the vehicle, the brakes will begin to apply by themselves. On the fire scene, all of these components are charged with compressed air and are potential explosion hazards (see Photo 6).
Vehicle Fire Response
First, upon receiving a dispatch to a fire that involves a large commercial vehicle, be sure that the right resources are responding as soon as possible. Many companies utilize an automatic aid system that will provide for notification and dispatch of multiple companies to the incident. Be sure to make contact with a response-capable heavy wrecker company; in the event of an under-ride or rollover incident involving passenger vehicles and commercial vehicles, a heavy duty wrecker with a rotating boom assembly would prove to be advantageous on the scene. Coordinate these resources with local law enforcement, as many police departments have these resources categorized and “on-standby” to respond to major roadways in your response area. Be sure to notify them immediately upon arrival if you think that their services might be needed.
There will be significant potential for an increased hazardous material release risk. Most times, when dealing with passenger vehicle fires, the fuel system will remain somewhat intact; there may be a leaking fuel line, but for the most part, it will be able to be controlled with minimal additional resources. Commercial trucks, however, pose a larger risk. Notwithstanding the materials that are being transported, most large tractor trailers can carry upwards of 300 gallons of fuel in dual saddle tanks directly under the cab (see Photo 7). Not only is this a potential explosive issue, but it may require your rescuers to work directly over the product when it is released onto the roadway.
Initial arriving units must be able to answer one major question: What is in the compartment? From local distributor deliveries, to nationwide long distance movers, the type and amount of fuel in a container can be staggering. These vehicles can have just about anything in their container, and can react surprisingly when they are heated (see Photo 8). The urge to treat these incidents as a “vehicle” fire must be resisted. A single company response to this “vehicle fire” is not efficient and puts crew members at significant risk; the first alarm should include two engine companies and a ladder company for adequate manpower and resources. Overhauling and removing the contents will be manpower-extensive; call for a lot of help early on.
Like any other compartment, coordinated ventilation and suppression need to be implemented. Ventilation from the top is the method of choice, but standing on top of a vehicle to cut a hole in the roof can be extremely hazardous; many vehicles do not have significant support in the roof area, and the amount of heat energy being generated into the roof will result in extreme exposure to the firefighters (Photo 9). For this reason, the vent point should be opened from an elevated device, preferably a tower ladder. If one is not on the initial alarm, one should be added to the assignment whenever a commercial vehicle is involved in a fire. Once ventilation is underway, suppression forces must be at the ready. Making the attack can come from a few avenues; piercing nozzles have shown to be effective on some vehicles, depending on construction. Lighter materials will be easier to penetrate with these appliances. However, shipping containers and intermodal trailers can prove to be tough to cut for suppression (see Photo 10). Controlling the doors at the rear may be the best option. When operating from the door, control the door opening. Crack the door just enough to allow the stream to enter the upper areas of the compartment. Use of Class A Foam for this application can be a significant benefit in limiting time of extinguishment; remember, you are having this compartment fire in a roadway, not in a house. Once the initial knockdown is made, many times complete extinguishment will require a significant amount of overhaul. Get off the road as fast as you can, keeping traffic flowing and limiting the risk to your firefighters.
Conclusion
Vehicle fires pose considerable safety risks to responding units and firefighters, and commercial vehicle fires compound these risks significantly. Fuel loads, flammable and hazardous material exposure, coupled with limitations in accessibility and resource deployment can make these incidents very perilous (Photo 11). Identifying the materials that you are dealing with and bringing the right amount of resources to handle the problem early will help in mitigating the incident quickly and efficiently.