Select Page

The Risk of Electrical Weapons and Fires

The Risk of Electrical Weapons and Fires

Officers in Texas responding to a 911 call discovered a middle-aged Hispanic sitting in his car outside his house, holding a cigarette lighter as he poured gasoline on himself and threatened to set himself on fire. For months he’d talked of suicide by burning. This day he’d doused his home with fuel and, he said, he’d placed a bomb inside as well.

When he broke off conversation with the cops and started to walk toward the house with the gasoline container and the lighter, one officer tried unsuccessfully to stop him with pepper spray. In turn, the subject tried to splash another with gasoline.

Simultaneously, two officers discharged their CEWs. The instant the probes struck, the suspect’s clothing burst into flames. By the time officers got the fire out, he’d been burned over his entire body, except for a small patch of skin on the back of his head.

In a matter of hours, the hospitalized suspect became a statistic in a highly limited casualty category: subjects who’ve suffered fatal burns from fires caused by conducted electrical weapons.

For what is believed to be the first time, a research team has put numbers and details to what they say is a “small but real risk” in the realm of CEW deployment.

Over the last 13 years, the team reports, six persons have been killed in CEW-induced fires. Another four suffered major burns but survived. About a dozen more experienced burns largely considered minor but also recovered.

Each of those categories included at least one officer.

In the researchers’ estimation, the risk of dying from a CEW-caused fire is about two (1.9) per million, while the risk of receiving non-fatal major burns is slightly more than one (1.3) per million.

“Any fire of consequence from a CEW is a rarity indeed,” lead researcher Dr. Mark Kroll told Force Science News. “And some common concerns officers have about this danger appear to be overstated.”

Kroll, a biomedical engineering professor and a world-recognized electricity expert with the U. of Minnesota, touched on the findings during a presentation recently at a use-of-force conference sponsored by the Miami-Dade (FL) PD. A full account of the research appears in the peer-reviewed Journal of Forensic and Legal Medicine.

Fiery Facts
To discover and document the few cases, Kroll’s team cast a wide net. Because there’s no official repository of statistics about CEW fires, “we performed an exhaustive search of mass media, legal databases, private compilations of arrest-related death incidents, indexed professional literature, and autopsy and investigator reports via freedom-of-information letters, along with a survey of more than 500 master TASER instructors, to identify any fires, explosions, and burns from CEW usage,” he says.

Despite this mass canvassing, unreported incidents may still have been missed. But the search did surface the 23 fatal and nonfatal fire victims that the team analyzed. The discovered cases occurred in nine US states, plus Canada, Australia, and the United Kingdom.

Kroll, a member of the scientific advisory board for Axon, the TASER manufacturer, explains that flammable fumes in the right concentration “are easily ignited by the electrical arc in the ‘needle eye’ at the back of a CEW probe.”

Multiple liquids have “explosive capabilities” from this source, he says, including benzene (commonly used for meth production), butane (often used to manufacture hash oil), and isobutene (present in cigarette lighters).

Because the concentration of fumes must be “ideal” for ignition to occur, “many electrical weapon probe deployments do not cause any explosion even in the presence of a given fuel,” Kroll explains.

Fuels and Injuries
Predominately, gasoline was the fuel source in the cases where fatal or major nonfatal burns resulted from CEW-related fires. Examples:

• A suspect in North Carolina was splashed with gasoline from a portable container when he rolled his van while fleeing from a traffic stop. When a deputy used a CEW to stop him from escaping on foot, his clothing caught fire, inflicting extensive burns that proved fatal.

• A wrong-way driver on a California interstate locked himself in his vehicle to prevent extraction after he was stopped by a spike strip. When an LEO broke the passenger-door window and fired on him with a CEW, the car’s interior “violently erupted in flames,” killing the driver on the spot. A “quantity of exposed gasoline” in the car from an earlier arson had “vaporized and exploded with the spark from the CEW.”

• When police in England answered a disturbance call, they confronted a suspect “drenched in petrol and holding a lit match.” Trying to prevent the man from setting himself afire, an officer TASERed him. The suspect was “instantly engulfed in flames” and died five days later.

Only one case in the serious-fire category involved a different fuel source, Kroll’s team found. An officer in Missouri discharged a CEW inside a house where a suicidal suspect had released natural gas. “Immediately,” the team reports, “the house exploded into flames with sufficient force to blow down walls and partially collapse the roof.” The suspect and one officer died from burns. The officer who fired the probes was burned over more than a third of his body but managed to survive.

Where minor or moderate injuries occurred, the fuel sources were more varied. They included sealed containers with lighter fluid, body spray, spray paint, and refrigerant (used for recreational huffing) inside. “Apparently,” Kroll says, “a CEW probe punctured the container and then ignited the contents. While unexpected and frightening, none of these incidents resulted in more than minor burns.

Training Points
In analyzing the handful of CEW fire cases they uncovered, Kroll and his team did reach several conclusions with implications for training and field operations.

• Currently, “much stress is placed on the [flammability] risk of OC spray,” Kroll writes. However, the researchers documented several cases in which OC was used in conjunction with a CEW without producing any flames.

OC/pepper spray “often uses flammable propellants such as isopropyl, alcohol, ethanol, and methyl isobutyl ketone,” Kroll writes. “Many of the OC sprays that are labeled as ‘non-flammable’ actually can be ignited by a CEW.” Typically, though, only a “small flame” will result, “unlikely to produce a severe burn injury.”

Kroll believes “the concern over concomitant usage of a CEW with OC spray may be overstated.” In their exhaustive search, his team found “only one instance of a CEW-induced fire involving OC,” and the suspect suffered minor burns to his face and neck.

• Another worry Kroll considers “excessive” concerns CEW use around filling stations, where “officers appear to be reluctant to use” the weapon for “fear of igniting gasoline.”

In his opinion, they “should not be afraid to use a CEW at a service station as long as they or the subject are not standing next to a car being fueled or the gas pump.” However, he does not specify the exact distance he considers safe from vapor ignition.

Of course, deployment of a CEW on someone drenched in gasoline—or any other potentially flammable liquid—“should be avoided, which is already a standard caution,” Kroll says.

• Special warnings and training regarding flammability are not warranted, Kroll believes. “The existing warnings of the largest CEW manufacturer [Axon] appear to be consistent” with his team’s findings, he writes. “They warn against usage around ‘explosive or flammable clothing or materials, liquids, fumes, gases, or vapors,’ including gasoline, vapor or gas found in sewer lines or methamphetamine labs, butane type lighters, flammable hair gels, or some self-defense sprays.

“With hindsight, we could say that strictly following these warnings could have prevented” at least some of the burn-injury cases his team reports, Kroll writes. He concedes, however, that this is “utopian reasoning” that may not always be a practical guideline in desperate control situations where there are many unknowns and where split-second decisions must be made.

Dr. Kroll can be reached at: mark@kroll.name. The colleagues who joined in this research are Mollie Ritter, PA, MS of the Atlanta’s Piedmont Health System, and Dr. Howard Williams of the Texas State U. School of Criminal Justice. Their Journal report is titled: “Fatal and non-fatal burn injuries with electrical weapons and explosive fumes.”


Law Officer is a proud partner with the Force Science Institute.  This article originally appeared in Newsletter 344.

Visit www.forcescience.org to learn more about the research FSI conducts and the training they provide.

About The Author

mm

The Force Science Institute is comprised of a world-class team of physicians, psychologists, behavioral scientists, attorneys and other leading professionals. We are dedicated to the unbiased application and further study of 150 years of existing scientific research on a wide range of areas associated with human factors, including the intricacies of human movement, action/reaction times, how the mind works during rapidly unfolding events, decision-making under stress, etc. Research specialists design our intricate research protocols and our work has been repeatedly published in leading peer-reviewed journals. Our goal is to provide information on human behaviors during high-stress, rapidly unfolding encounters to those who are tasked with evaluating and investigating the behavior of individuals involved in these events. It is our hope that we can support their efforts to ensure that these evaluations are thoroughly informed, fair and fact-finding.

Featured Author

Share This