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Fog Oil Smoke http://www.battelle.orp/v'nvironment/publications/Env Updates/Speci... <br /> BELLE EBVIP Mento UdatS <br /> Battelle Assesses Risks of Fog Oil Smoke <br /> The Base Realignment and Closure <br /> (BRAC)Acts of 1988 and 1990 resulted in <br /> the closure or transfer of many military <br /> ' installations around the country.One such <br /> action required that the U.S.Army <br /> Chemical School relocate from Fort <br /> McClellan,Alabama,to Fort Leonard <br /> Wood(FLW),Missouri.In connection with <br /> the relocation,Battelle was contracted by <br /> the Kansas City District of the U.S.Army <br /> Corps of Engineers to conduct a human <br /> health risk assessment of the School's fog <br /> _. oil smoke training activities. <br /> Fog oil is a battlefield obscurant that is <br /> used to produce a visual smoke screen to mask troops by confounding enemy sensors and <br /> smart munitions.It consists of a de-aromatized middle distillate petroleum(MIL-F-12070E) <br /> that is heated and expelled from mobile smoke generators.Upon contact with the air the <br /> expelled oil droplets condense to form a thick white smoke. <br /> Under the right atmospheric conditions the smoke plumes can persist and migrate at ground <br /> level.Therefore,the U.S.Environmental Protection Agency(EPA)required the Army to <br /> evaluate the health risk posed by smoke training to civilians residing within FLW.Battelle <br /> was contracted to conduct chemical characterization and field testing of fog oil and fog oil <br /> smoke,use an atmospheric dispersion model tailored to FLW to predict downwind <br /> concentrations,and perform a human health risk assessment based upon these results. <br /> Extensive field tests with two smoke generators,the M56 and M 157A2,were conducted in <br /> July 1998 at Utah's Dugway Proving Ground.Battelle set up samplers at varying distances <br /> from the generators in order to capture and analyze elements in the fog oil smoke and the <br /> generators'exhaust.An inert tracer gas(SF6)was used to monitor plume meander and <br /> migration and allow identification and determination of the emission rate of the chemicals of <br /> concern in the exhaust and fog oil smoke.The exhaust and smoke samples were subjected to <br /> detailed chemical analysis,the results of which were used in an air dispersion model to <br /> predict fog oil smoke concentrations under a variety of meteorological conditions.The model <br /> was tailored for the topography,meteorologic conditions,and scheduled training scenarios to <br /> be conducted at FLW.The concentrations and frequency of any chemicals reaching the <br /> civilian population were predicted and incorporated into the human health risk assessment. <br /> The risk assessment revealed that the increased risk of cancer that fog oil smoke training at <br /> FLW poses to people residing there is well below the limit set by the EPA.While the exhaust <br /> produced by the smoke generators did contain possible carcinogens—volatile organic <br /> compounds and polycyclic aromatic hydrocarbons,their concentrations were comparable to <br /> or lower than those found in urban air or in the exhaust of gasoline,diesel,or jet fuel engines. <br /> The fog oil smoke itself was found to contain several possible carcinogens,including <br /> 1.3-butadiene,benzene,and quinoline.The estimated total risk of cancer resulting from <br /> chronic exposure to fog oil smoke during training exercises amounts to approximately five <br /> additional cancers per 10 million children and one additional cancer per 10 million adults <br /> residing in FLW. <br /> For more information,please contact Scott Stout at(781)934-0571 or via e-mail at <br /> stoutsAbattelle.org. <br /> 4 <br /> ' �1t <br /> ! tt <br /> NIIX I <br /> Environment Home Pace SMiat Edition'00 Home Page <br /> PRr:VIOUS <br /> I of 3/26/2010 8:51 AM <br />