Zhao Chenyan, Yang Lili, Sun Yuxiang, Chen Changzhi, Huang Zichun, Yang Qiuting, Yun Jianghui, Habib Ahsan, Liu Guorui, Zheng Minghui, Jiang Guibin
State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, China.
School of Environment, Hangzhou Institute for Advanced Study, UCAS, Hangzhou, China.
Nat Commun. 2024 Jun 4;15(1):4737. doi: 10.1038/s41467-024-49097-0.
Hexachlorobutadiene (HCBD) is a concerning chemical that is included in the United States Toxic Substances Control Act, and the Stockholm Convention. Knowledge of the sources of HCBD is insufficient and is pivotal for accurate inventory and implementing global action. In this study, unintentional HCBD release and source emission factors of 121 full-scale industrial plants from 12 industries are investigated. Secondary copper smelting, electric arc furnace steelmaking, and hazardous waste incineration show potential for large emission reductions, which are found of high HCBD emission concentrations of > 20 ng/g in fine particulate matter in this study. The highest HCBD emission concentration is observed for the secondary copper smelting industry (average: 1380 ng/g). Source emission factors of HCBD for the 12 industries range from 0.008 kg/t for coal fire power plants to 0.680 kg/t for secondary lead smelting, from which an estimation of approximately 8452.8 g HCBD emissions annually worldwide achieved. The carcinogenic risks caused by HCBD emissions from countries and regions with intensive 12 industrial sources are 1.0-80 times higher than that without these industries. These results will be useful for formulating effective strategies of HCBD control.
六氯丁二烯(HCBD)是一种备受关注的化学品,被列入美国《有毒物质控制法》和《斯德哥尔摩公约》。目前对HCBD的来源了解不足,而这对于准确编制清单和实施全球行动至关重要。在本研究中,对12个行业的121家大型工业工厂的无意HCBD排放和源排放因子进行了调查。二次铜冶炼、电弧炉炼钢和危险废物焚烧显示出大幅减排的潜力,在本研究中发现这些行业细颗粒物中的HCBD排放浓度很高,>20 ng/g。二次铜冶炼行业的HCBD排放浓度最高(平均:1380 ng/g)。12个行业的HCBD源排放因子范围从燃煤发电厂的0.008 kg/t到二次铅冶炼的0.680 kg/t,据此估计全球每年的HCBD排放量约为8452.8 g。来自12个工业源密集的国家和地区的HCBD排放所导致的致癌风险比没有这些行业的国家和地区高1.0至80倍。这些结果将有助于制定有效的HCBD控制策略。
