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� r <br /> Excavation,Trenching and Shoring Safety and the OSHA Excavation Standard - ... Page 1 of 1 <br /> CHAPTER 6: HAZARDOUS ATMOSPHERES <br /> We often take the air we breath for granted. However, many gases in the environment have no color or <br /> smell,and we can not tell if the air is dangerous simply by looking at it. In excavations , these hazardous <br /> atmospheres frequently go unrecognized by workers until it's too late. Then workers rush in to rescue <br /> their co-workers and often become the victims as well. Indeed, 60% of all workers who die from such <br /> atmospheres are the rescuers themselves. <br /> The OSHA standard says that when working in trenches deeper than four feet that are dug in locations <br /> where hazardous atmospheres are likely to be present, atmospheric testing, ventilation,and respiratory <br /> protection, must be provided.Areas such as landfills, hazardous waste sites, chemical plants, refineries, <br /> and areas where underground storage tanks are present are all locations which may produce hazardous <br /> atmospheres. Planners who perform pre-construction site surveys should look for potential atmospheric <br /> hazards as well as the physical conditions of the area to be excavated. <br /> Hazardous atmospheres include oxygen deficient environments, flammable%ombustible%xplosive <br /> environments and toxic environments.An oxygen-deficient atmosphere means there is not enough <br /> oxygen in the space. Normal air has 20.8%oxygen. Levels below 19.5%are considered oxygen-deficient. <br /> Oxygen deficient atmospheres are dangerous and can cause unconsciousness, brain damage, and <br /> death. Flammable/combustible/explosive atmospheres contain gases or vapors in a certain <br /> concentration that can catch fire or explode if there is an ignition source.Toxic atmospheres contain <br /> gases or vapors which, if breathed in,can make you sick, or even die. Here are a few examples of the <br /> most common sources for hazardous atmospheres in excavations: <br /> Oxygen deficient atmospheres: <br /> In an open excavation, rain water passing over limestone, causes an acidity reaction, and in turn <br /> produces carbon dioxide. Carbon dioxide is a simple asphyxiant which replaces oxygen in the air we <br /> breath and can result in death. <br /> Flammable/Combustible/Explosive Atmospheres: <br /> Volatile organic compounds found in petroleum products can move through small spaces in soils and <br /> accumulate in excavations.This can create both a fire and toxic hazard. Buried tanks next to an <br /> excavation site are a common source of these compounds. <br /> Another common flammable gas is Methane. Methane occurs naturally from the breakdown of organic <br /> materials, such as sewage, leaves or weeds. <br /> Toxic Atmospheres: <br /> Carbon monoxide from vehicles or equipment too near the excavation can accumulate and create a toxic <br /> environment for the workers. <br /> When dealing with potential hazardous environments, early recognition is very important. Years ago, <br /> miners had to rely on canaries to tell them if the air they were breathing was hazardous. In today's world, <br /> testing equipment for atmospheric hazards are compact and easy to use. One instrument can be <br /> purchased to detect the three most common atmospheric hazards found in excavation. The competent <br /> person understands and uses these direct reading instrument(s)that can detect the most common <br /> atmospheric hazards found in excavations. Continuous air monitoring is always a good idea because of <br /> changing conditions that can occur at a construction site. <br /> http://www.afseme.org/health/excav07.htm 8/25/2005 <br />