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02 May 07
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PQ. What is the basic requirement for spill containment and whose standards do you follow?
<!--end paragraph--> <!--begin paragraph-->CA. Qwest Communications provides spill containment for its flooded lead-acid battery systems. Placing 4-in. barriers around each stand can inhibit access to the batteries, so we typically compartmentalize and contain an entire room (including raised doors) and provide ADA-compliant ramps. Although epoxy is a popular floor sealant, there are many other acid-resistant, linoleum-type materials that provide essential liquid-tight barriers. We don't provide spill containment for VRLA batteries because the electrolyte is immobilized.
<!--end paragraph--> <!--begin paragraph-->Spill containment codes for batteries first appeared in the Uniform Fire Code (UFC) in 1995. Subsequent codes have followed a similar model, but there are a myriad of interpretations over proper application. Although fire marshals or other authorities having jurisdiction (AHJs) have the final say, it helps to work with them to come to reasonable interpretations.
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PQ. Do you believe spill containment should be included in NFPA codes? If so, where?
<!--end paragraph--> <!--begin paragraph-->SM. Yes, but the code writers need to keep the issue of spill containment in perspective. Battery spills aren't a national epidemic; they are rare occurrences with relatively minor consequences. And spill containment as presently defined would help in only a small percentage of cases.
<!--end paragraph--> <!--begin paragraph-->Even within the NFPA, there are several codes that address batteries. We are lobbying them to keep the number of codes dealing with one subject to a minimum. In July 2001 they narrowly defeated a motion to put spill containment into the National Electric Code. That could still happen in a later edition. I think one of the fire codes is an appropriate place to address the subject, irrespective of who publishes it. If other codes wish to address the subject, they should do so by referring only to a fire code.
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JM. I agree that the NFPA needs to reduce the number of sections addressing a single issue. NFPA 1, which will integrate the Fire Prevention Code and the UFC, is the most appropriate document.
<!--end paragraph--> <!--begin paragraph-->However, I would prefer using the word “control” instead of “containment.” There are many ways to minimize the risks involved with stationary battery installation and operation. Containment is just one of those ways. Each application requires the proper design, installation, and maintenance to meet its specific needs. Building owners must ensure safety of personnel and the environment with a level proportionate to the true risk involved.
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PQ. How do you handle spills at your facilities?
<!--end paragraph--> <!--begin paragraph-->CA. An employee who finds a spill must do two things as a minimum: Attempt to contain the spill using absorbent pillows and call our internal hazardous material response team.
<!--end paragraph--> <!--begin paragraph-->JM. We have spill containment kits in or near every battery room or storage location. An individual who discovers a spill can attempt to contain and absorb the spill if he has been trained in this area. Otherwise, he must call our hotline so the dispatcher can send the hazmat team. Our environmental personnel disposes the hazardous material.
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PQ. What guidelines should people follow if they experience a battery fire?
<!--end paragraph--> <!--begin paragraph-->CA. Notify the fire department and a hazardous material response team immediately. You should give evacuation strong consideration because burning batteries can produce several toxic gases, such as chlorine (depending on the jar material) and hydrogen sulfide (rotten egg gas). Burning batteries also can produce an acid mist when the electrolyte atomizes. Once firefighters extinguish the fire and the response team takes care of the hazardous material, you should examine all sensitive electronic equipment thoroughly for damage from corrosive chemicals, such as soot or acid.
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If you're lucky enough to have access to a thermo imaging mask, you might consider entering the room prior to desmoking. After desmoking, enter the room using only fog until you identify and evaluate the heat source. In a flooded battery installation (and depending on the cause), the fire will most likely self-extinguish upon the removal of the conduction path. Remember, the materials used in the jar are fire-retardant to some degree. When the electrolyte evaporates out of the affected cells, it has a cooling effect on the fire.
<!--end paragraph--> <!--begin paragraph-->In addition, the electrolyte is approximately 70% water, which means you'll dilute it even more. Under these conditions, along with the protection provided by the turnout gear, battery electrolyte would be one of my least concerns.
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