Flashlight Central

a flashlight website

Flashlight Safety
Is it true that flashlights  
can, and have, exploded  
while in use by workers?
Yes. The National Institute for Occupational Safety and Health (NIOSH) has received reports of incidents where flashlights have exploded while in use by fire fighters.  In December 1992, a flashlight used in a fire fighter training exercise exploded, slightly injuring one fire fighter.  In January 1995, a flashlight carried in a fire fighter’s pocket exploded, although he was not injured. sample image Previous reports of exploding flashlights have appeared in the public safety literature. 
 
What causes flashlights 
to explode?
In the types of batteries most commonly used in flashlights—zinc/carbon batteries and alkaline batteries—hydrogen gas (H2) is produced naturally as a product of the corrosion of the zinc electrode in the aqueous electrolyte. Differences in batteries, including cell design and charge rate, affect the rate and volume of H2 generation. Excess hydrogen gas is more likely to be released if batteries are used incorrectly; that is, if different types or brands of batteries are mixed, damaged batteries are used, old batteries are mixed with new batteries, or batteries are inserted incorrectly so that  polarity is reversed. Excess hydrogen gas may also be produced by rechargeable batteries during recharging. If H2 accumulates within batteries or battery compartments without sufficient release, the buildup of pressure can cause the battery or compartment casing to rupture. Also H2 and oxygen (O2) mixtures are highly explosive, and if ignited by a spark or excessive heat can produce powerful explosions. 
 
Can the accumulation  
of H2 be prevented?
Many batteries or battery compartments are constructed to allow leakage and dissipation of H2.  However, some battery compartments may be sealed tight against air and water by design. Some flashlights are constructed this way to enable their use by underwater divers and others who must have air- and water-tight equipment.  Some manufacturers of equipment with air- and water-tight battery compartments have incorporated safeguards to prevent H2 accumulation. For example, one-way relief valves may be incorporated in battery compartments to allow H2 to escape. Or, chemicals may be used to absorb or recombine H2.  However, even these safeguards may not be sufficient if batteries are used incorrectly and excessive levels of H2 are produced.
Is there one  
particular brand,  
model, or type of  
flashlight that is  
more likely to  
explode?
NIOSH does not have sufficient information to determine whether the risks are higher with specific brands, models, or types of flashlights, than with others.  However, the 1992 and 1995 explosions cited in this fact sheet involved one particular brand and model of flashlight: the Super SabreLite Submersible, Model 2000 series flashlight, manufactured by Pelican Products, Inc. (2255 Jefferson St., Torrance, CA 90501). 

This flashlight features an air- and water-tight battery compartment, and is used by underwater divers, military personnel, fire fighters, hazardous materials workers, emergency response workers, and other public safety workers. The Model 2000C incorporates both a pressure relief valve, and a chemical catalyst to recombine H2. These precautions did not prevent the January 1995 explosion, which involved a Model 2000C. An examination by the Mine Safety and Health Administration (MSHA) found that use of different brands of batteries, with presumably different charge states, contributed to the 1995 explosion by causing the release of hydrogen gas at a rate that exceeded the venting capacity of the pressure relief valve.

How serious is  
this hazard?
Any explosion creates the potential for injury due to the force exerted by the explosion itself, the potential that materials such as equipment components or pieces will fly outward from the source of the explosion with sufficient force to strike and injure someone, and the possibility that caustic or toxic substances could be released and come into contact with someone. In addition to the potential for injury, an exploding flashlight could touch off a larger explosion in a flammable atmosphere.  The Super SabreLite Submersible Model 2000C is currently approved for use in flammable atmospheres by the Mine Safety and Health Administration (MSHA), the Factory Mutual Research Corporation (FM), and the Canadian Standards Association (CSA). 
 
How can workers  
who use battery-powered flashlights protect  
themselves?
In order to protect themselves, workers should follow these precautions: 
  • Read and follow manufacturers’ recommendations for product use 
  • DO NOT MIX batteries of different brands 
  • DO NOT MIX old and new batteries 
  • DO NOT MIX alkaline with nonalkaline batteries 
  • DO NOT USE damaged batteries 
  • Ensure that proper polarity is observed when installing batteries 
  • PRIOR TO THEIR USE IN FLAMMABLE ATMOSPHERES, inspect approved battery-powered flashlights to ensure that the batteries are in good condition, and that the proper batteries are installed correctly. Opening the battery compartment should allow any accumulated H2 to dissipate. DO NOT inspect the flashlight in a hazardous area or near an open flame.
Are flashlights  
the only type of 
battery-powered  
equipment that can  
explode?
No. The potential for explosion may exist in battery-powered equipment other than flashlights. The accumulation of hydrogen gas within batteries or battery compartments may result in explosion of batteries themselves, or the explosion of the equipment in which they are housed. Due to the widespread  use of battery-powered equipment in numerous occupational settings, NIOSH urges all employers and employees who use battery-powered equipment (including those with rechargeable batteries) to be aware of the potential explosion hazard described in this Fact Sheet.