Department of Chemistry, Faculty of Science, Dayalbagh Educational Institute, Dayalbagh, Agra, 282110, UP, India.
Department of Chemistry, Faculty of Science, Dayalbagh Educational Institute, Dayalbagh, Agra, 282110, UP, India.
Chemosphere. 2020 Mar;242:125132. doi: 10.1016/j.chemosphere.2019.125132. Epub 2019 Oct 18.
The present study was conducted at sub-urban and rural site of Agra. The main aim of this study was to characterize WSII in terms of spatial, seasonal and formation characteristics and identify the major sources responsible for the pollution of WSII in PM particles using different source apportionment models. Since biomass burning is one of the most important sources of PM pollution in Agra, a case study was also conducted at rural site to investigate the contribution of biomass burning from cooking activities using different types of fuels. PM mass concentrations were higher at sub-urban site (91.0 ± 50.8 μg/m) than at rural site (77.1 ± 48.6 μg/m). WSII contributed 50.0% and 45.8% of annual average PM mass at both sites. The aerosols were ammonium rich and were therefore alkaline in nature. Aerosol acidity characteristics studied using AIM-II model showed that the aerosols were slightly less acidic at rural site than at sub-urban site. SO, NO and NH were the major contributors of WSII and their formation was favoured mainly in winter. Although, WSII showed slight variations in seasonal and spatial characteristics, the major sources of pollution were found to be similar. Four sources were identified as biomass burning (29.1% and 27.4%), secondary aerosols (26.2% and 22.5%), coal combustion (22.3% and 26.9%) and soil dust (22.4% and 23.1%) at sub-urban and rural sites. The results of case study showed that among different types of biomass fuels cow dung cakes showed maximum PM emissions while LPG showed minimum PM emissions.
本研究在阿格拉的郊区和农村地区进行。本研究的主要目的是从空间、季节和形成特征方面对 WSII 进行特征描述,并利用不同的源分配模型来确定导致 PM 颗粒中 WSII 污染的主要来源。由于生物质燃烧是阿格拉 PM 污染的最重要来源之一,因此在农村地区还进行了一项案例研究,以调查使用不同类型燃料的烹饪活动产生的生物质燃烧对 PM 污染的贡献。郊区站点的 PM 质量浓度(91.0±50.8μg/m)高于农村站点(77.1±48.6μg/m)。WSII 对两个站点的年平均 PM 质量的贡献分别为 50.0%和 45.8%。气溶胶富含铵盐,因此呈碱性。使用 AIM-II 模型研究气溶胶酸度特征表明,农村站点的气溶胶比郊区站点略呈弱酸性。SO、NO 和 NH 是 WSII 的主要贡献者,其形成主要在冬季有利。尽管 WSII 在季节和空间特征上略有变化,但发现主要污染源相似。四个来源被确定为生物质燃烧(29.1%和 27.4%)、二次气溶胶(26.2%和 22.5%)、煤炭燃烧(22.3%和 26.9%)和土壤尘埃(22.4%和 23.1%),分别在郊区和农村地区。案例研究的结果表明,在不同类型的生物质燃料中,牛粪饼显示出最大的 PM 排放,而液化石油气显示出最小的 PM 排放。
