The assessment of organic contaminants at a paint manufacturing site: implications for health risks and source identification

Atmósfera Pub Date : 2024-04-04 DOI:10.20937/atm.53322

Sidali Khedidji, C. Balducci, Lyes Rabhi, A. Cecinato, R. Ladji, N. Yassaa

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Abstract

The daily variation of organic contaminants, both gaseous and associated with suspended particulate matter, was investigated within the National Company of Paintings estate in Lakhdaria, Algeria, spanning the period 2014-2015. The research emphasizes the chemical characterization of suspended particulate matter, analyzing a range of organic compounds, including n-alkanes, polycyclic aromatic hydrocarbons (PAHs), and highly polar organics (HPOC), such as phthalate esters and heterocyclic compounds. Vapours of PAHs and polychlorobiphenyls (PCBs) were also analyzed. Low molecular weight compounds were primarily associated with the gas phase (2-ring PAHs, approximately 95%; 3-ring PAHs, around 70%), while high molecular weight congeners were mainly associated with the particle phase (6-ring PAHs, 55%). The concentrations of PCBs (ranging from 0.6 to 42 ng m-3) were higher than those reported in other cities in Algeria and Europe. The source reconciliation of organic contaminants through principal component analysis (PCA) demonstrated that the primary sources were petroleum combustion, industrial manufacturing, tobacco smoking, and vehicular traffic. The significance of tobacco smoke was further confirmed by the analysis of PAHs diagnostic ratios. The variations in diagnostic ratio rates between gaseous and particulate PAHs were attributed to distinct contributions from sources such as industrial processes. Health risks for workers exposed to PAHs and PCBs in PM10 were quantitatively assessed in terms of Benzo[a]pyrene equivalent concentration (BaPeq) and incremental lifetime cancer risk (ILCR). ILCR presents novel findings, showcasing heightened risks among workers exposed to specific PAHs within production areas, whereas that related to PCBs suggested a high potential health risk for laboratory workers.

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油漆生产基地的有机污染物评估：对健康风险和来源识别的影响

在 2014-2015 年期间，在阿尔及利亚拉赫达里亚的国家绘画公司庄园内调查了有机污染物的日变化，包括气态污染物和与悬浮颗粒物相关的有机污染物。研究强调了悬浮颗粒物的化学特征，分析了一系列有机化合物，包括正构烷烃、多环芳烃（PAHs）和高极性有机物（HPOC），如邻苯二甲酸酯和杂环化合物。还分析了多环芳烃和多氯联苯 (PCB) 的蒸气。低分子量化合物主要与气相有关（2 环 PAHs，约 95%；3 环 PAHs，约 70%），而高分子同系物主要与颗粒相有关（6 环 PAHs，55%）。多氯联苯的浓度（从 0.6 到 42 纳克/立方米不等）高于阿尔及利亚和欧洲其他城市报告的浓度。通过主成分分析 (PCA) 对有机污染物的来源进行了核对，结果表明主要来源是石油燃烧、工业制造、吸烟和车辆交通。多环芳烃诊断比分析进一步证实了烟草烟雾的重要性。气态多环芳烃和颗粒多环芳烃诊断比率的差异归因于工业流程等来源的不同贡献。根据苯并[a]芘当量浓度（BaPeq）和终生致癌风险增量（ILCR），对暴露于 PM10 中 PAHs 和 PCBs 的工人的健康风险进行了定量评估。ILCR显示了新的研究结果，表明在生产区接触特定多环芳烃的工人的风险增加，而与多氯联苯有关的研究则表明实验室工人的潜在健康风险很高。

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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Atmósfera

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