Micro-environmental factors impact breathing zone exposures: A simulated petrochemical manufacturing facility task.

Archives of environmental & occupational health Pub Date : 2024-01-01 Epub Date: 2024-03-31 DOI:10.1080/19338244.2024.2328523

Mohamed Eturki, Kermit G Davis, Melissa Vincent, Susan F Arnold, Andrew Maier

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Abstract

This study investigates the impact of micro-environmental factors on worker breathing zone exposure levels in petrochemical facilities. A laboratory simulation study evaluated near-field exposure to methane for a typical maintenance task. Individual and combinations of micro-environmental factors significantly affected methane exposure. Airflow direction and speed were significant determinants of exposure concentration reduction. A side airflow direction at medium to high speed produced the lowest gas concentration in the breathing zone. Worker body orientation relative to the methane emission point was also a critical factor affecting gas concentration in the worker's breathing zone. The study provides insights into how variations in airflow and small changes in position impact near-field exposures for petrochemical tasks, guiding industrial hygiene professionals' training on qualitative exposure estimation and providing input for near-field exposure modeling to guide quantitative exposure and risk assessment.

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微环境因素对呼吸区暴露的影响：模拟石化生产设施任务。

本研究调查了微环境因素对石化设施中工人呼吸区暴露水平的影响。一项实验室模拟研究评估了典型维护任务中甲烷的近场暴露。微环境因素的个体和组合对甲烷暴露有显著影响。气流方向和速度是降低接触浓度的重要决定因素。中高速的侧气流方向在呼吸区产生的气体浓度最低。工人身体相对于甲烷排放点的方向也是影响工人呼吸区气体浓度的关键因素。这项研究深入探讨了气流变化和位置的微小变化如何影响石油化工工作的近场暴露，为工业卫生专业人员的定性暴露估计培训提供了指导，并为近场暴露建模提供了信息，从而为定量暴露和风险评估提供了指导。

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Archives of environmental & occupational health

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