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Project No. 014-94276 <br /> Page No. 9 <br /> 3.4 Potential Noise Hazards <br /> Exposure to excessive noise will be controlled by issuance and use of hearing protection as <br /> instructed by the Task Leader or Safety Officer. Noise levels will be periodically monitored b the Safety <br /> Y <br /> Officer. <br /> ' 4.0 HYDROCARBON VAPOR HAZARD CRI RI <br /> i <br /> i <br /> Exposure to elevated levels of hydrocarbon vapors presents potential health risks that must be <br /> addressed. Work practices and methods will be used to limit exposures. Where elevated exposures persist, <br /> respiratory protection will be used to protect personnel from inhalation of hydrocarbon vapors. The <br /> hydrocarbon vapors expected to be encountered during the field portion of this investigation are composed <br /> of a variety of volatile refined petroleum constituents. Most Df these chemicals have limited toxicity thus <br /> requiring minimal controls at the concentrations that are anticipated to be encountered. There are certain <br /> components, such as benzene vapors, that present significant toxicological hazards and must be properly <br /> f <br /> controlled. Water, soil, and vapor samples collected near the point of release commonly contain benzene <br /> at 1% of the total hydrocarbon constituents. Criteria for the use of respiratory protection is based on <br /> limiting potential exposures to-benzene. <br /> A limit of 100 ppmv total hydrocarbon is proposed as the maximum acceptable hydrocarbon level <br /> of exposure without respiratory protection. An H-nu® ph toionization detector (PID) will be used to <br /> measure total hydrocarbon levels of the sample. When levels of the sample are above 50 ppm, breathing <br /> zone concentrations will be monitored and documented eve 15 minutes. When a persistent level of 50 <br /> ppmv is noted to exist at the breathing zone, an appropriate respirator will be donned by that field team j <br /> member. In a typical situation, with 1% of the hydrocarbon vapors being benzene, a 50 ppmv <br /> concentration of total hydrocarbon would result in a breathing zone level of 0.5 ppmv benzene. This level ' <br /> is one half of the current Permissible Exposure Limit(PEL) of 1 ppm for an 8-hour occupational exposure <br /> to benzene. <br /> When possible, to assure benzene exposures are belo a 1 ppmv limit, Dragero benzene detector <br /> tubes will be used if PID measurements of the breathin3, zone concentrations indicated persistent <br /> hydrocarbon levels above 50 ppmv. These detector tubes are not compound specific and may respond to <br /> other less hazardous petroleum hydrocarbons such as toluene, xylene and ethylbenzene. In the event that <br /> benzene detector tube measurements asu ements mdicate that levels exceed 0.5 ppmv in the breathing zone; respirators <br /> 1J <br /> KRAZAN & ASSOCIATES, INC. <br /> Offices Serving the Western Uqited States M76.HSP <br /> f <br />