矿物油脱脂剂的苯暴露评估。

Marion J Fedoruk, Rod Bronstein, Brent D Kerger
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引用次数: 26

摘要

本研究检查了使用含有9或58 ppm苯的矿物酒精溶剂的金属零件清洗剂(“脱脂剂”)所产生的苯排放。在一小时的相对剧烈的零件清洁活动中,使用配备湿刷和喷雾器附件的脱脂站和压缩空气软管获得空气样本。采用了两种方法来评估空气中的苯水平:美国EPA to -14 (summa不锈钢罐)和NIOSH 1501(木炭管)。总的来说,两种方法提供了相似的结果,除了检测限的差异。第一次模拟是用回收溶剂(溶剂中苯含量为9 ppm)进行的,结果显示,在工人的呼吸区和零件清洗罐正上方,平均一小时空气中苯含量<或=33 ppbv。在60分钟的清洁过程中,离水箱18英寸处空气中苯的平均浓度低于2 ppbv。第二次模拟使用加苯的回收溶剂(58 ppm苯)显示,在60分钟的清洁期间,在工人的呼吸区和罐正上方测量到的空气中苯水平平均为500 ppbv,而距罐周长18英寸的平均浓度为63 ppbv。数据表明,空气中苯的平均暴露和峰值暴露大致与溶剂苯含量成正比,尽管短暂的峰值暴露表现出更大的差异,可能与使用刷子和/或喷雾附件相关的气溶胶产生有关。在这个选择的上限暴露模拟中,我们发现,在开放式仓库环境中使用回收的矿物酒精溶剂清洁部件,不会导致暴露超过目前的职业暴露限值,即在溶剂苯含量在9至58 ppm之间的平均8小时内暴露0.5 ppm。
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Benzene exposure assessment for use of a mineral spirits-based degreaser.

This study examines benzene emissions from the use of a metal parts washer ("degreaser") supplied with a mineral spirits solvent containing either 9 or 58 ppm benzene. Air samples were obtained during a one-hour session of relatively vigorous parts cleaning activity using a degreaser station equipped with wet brush and sprayer attachments and a compressed air hose. Two methods were utilized to assess airborne benzene levels: U.S. EPA TO-14 (summa stainless steel canister) and NIOSH 1501 (charcoal tube). Overall, both methods provided similar results, excepting detection limit differences. The first simulation was performed with recycled solvent (9 ppm benzene in solvent) showing average one-hour airborne benzene levels < or =33 ppbv in the worker's breathing zone and directly above the parts cleaning tank. Average airborne benzene concentrations 18 inches away from the tank were below 2 ppbv during the 60-minute cleaning protocol. The second simulation with benzene-spiked recycled solvent (58 ppm benzene) showed airborne benzene levels averaging 500 ppbv measured over the 60-minute cleaning period in the worker's breathing zone and directly above the tank, while average concentrations 18 inches from the tank perimeter were 63 ppbv. The data indicate that average and peak exposures to airborne benzene were roughly proportional to the solvent benzene content, although the brief peak exposures exhibited greater variance probably related to aerosol generation associated with the use of the brush and/or spraying attachment. Under this selected upper bound exposure simulation, we found that cleaning parts using a recycled mineral spirits-based solvent in an open warehouse setting did not result in exposures in excess of the current occupational exposure limit of 0.5 ppm averaged over 8 hours for solvent benzene content between 9 and 58 ppm.

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