Benzene Exposure in Workers From a Waste Oil Regeneration Plant During Ordinary Activities by Air and Biological Monitoring.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Laura Campo, Luca Boniardi, Luca Olgiati, Elisa Polledri, Rosa Mercadante, Silvia Fustinoni
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引用次数: 0

Abstract

Background: In the regeneration of waste oil, a strategical technological process for the European Union circular economy action plan, exhausted oils are regenerated to produce high performing oil bases. Aim of this work was to assess the exposure to benzene in plant workers during ordinary activities.

Methods: 59 workers, potentially exposed to benzene, and 9 administrative workers from an Italian plant were monitored for the whole work shift with personal air samplers; urinary benzene (BEN-U) and S-phenyl mercapturic acid (SPMA) were measured by mass spectrometry methods in end-shift urine samples. Different job tasks were identified among workers.

Results: Median (minimum-maximum) airborne exposures to benzene were <0.9 (<0.9-6.3) and <0.9 (<0.9-0.9) µg/m3, BEN-U and SPMA levels were 0.094 (<0.015-3.095) µg/L and 0.15 (<0.10-9.67) µg/g crt and 0.086 (0.034-0.712) µg/L and <0.10 (<0.10-3.19) µg/g creatinine in workers and administrative workers, respectively. No differences were found among job tasks and between workers and administrative workers, while higher levels were found in smokers than in non-smokers. For all job tasks, the exposure to benzene was always below occupational limit values.

Conclusions: This study has investigated for the first time the exposure to benzene of workers employed in the re-refining of exhaust oil. The results showed that normal production activities in regenerating used oils do not pose a risk of exposure to benzene in workers.

通过空气和生物监测,了解废油再生厂工人在日常活动中的苯暴露情况。
背景:废油再生是欧盟循环经济行动计划的一项战略性技术工艺,在废油再生过程中,废油被再生为高性能油基。方法:使用个人空气采样器对意大利一家工厂的 59 名可能接触苯的工人和 9 名行政人员进行全班监测;通过质谱法测量班末尿样中的尿苯(BEN-U)和 S-苯基巯基酸(SPMA)。在工人中确定了不同的工作任务:结果:空气中苯暴露量的中位数(最小值-最大值)为 0:这项研究首次调查了废油再提炼工人的苯接触情况。结果表明,废油再生的正常生产活动不会对工人造成接触苯的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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