Changes in Inorganic Chemical Species in Fog Water over Delhi

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2023-11-28 DOI:10.5572/ajae.2021.092

Rahul Sheoran, Umesh Chandra Dumka, Hulivahana Nagaraju Sowmya, Deewan Singh Bisht, Atul Kumar Srivastava, Suresh Tiwari, Shiv Dev Attri, Philip Karl Hopke

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Abstract

Heavy fogs occur during the winter period over the part of northern India and impact aviation, public transport, the economy, public life, etc. During winter, fog water (FW) and non-monsoonal rainwater (NMRW) samples were collected in Delhi, which is a highly polluted and populated megacity in northern India. The collected FW and NMRW samples were analyzed for their inorganic chemical constituents (F⁻, Cl⁻, SO₄²⁻, NO₃⁻, NH₄⁺, Na⁺, K⁺, Ca²⁺, and Mg²⁺). The volume-weighted mean (VWM) pH, conductivity, and total dissolved solids (TDS) of FW were 6.89, 206 μS cm⁻¹, and 107 mg L⁻¹, respectively, indicating the dominance of alkaline species. The total measured ionic constituents (TMIC) in FW and NMRW were 5,738 and 814 μeq L⁻¹, respectively, indicating highly concentrated FW in Delhi. The TMIC in FW were factors of 16 and 7 times more concentrated than MRW and NMRW samples, respectively. The concentrations of inorganic acidic species (SO₄²⁻ and NO₃⁻) in FW were much higher than in monsoon rainwater (MRW: 3 and 5 times) and NMRW (8 and 12 times), respectively. Also, the concentrations of SO₄²⁻ and NO₃ in NMRW were approximately double compared to MRW indicating higher acidic species concentrations during the winter season over Delhi region. Significant decadal growth in the mean concentrations of ionic species in FW (SO₄²⁻ - ~9 times; NH₄⁺ - double) were observed between 1985 and 2010. However, the nitrate decreased by ~28%. The higher SO₄²⁻ is likely from heavy-duty vehicles that burn sulfur-containing fuel. The anions in FW, MRW, and NMRW contributed 20, 42, and 43%. However, the cation contributions were 80, 58, and 57%, respectively. The anion contributions were lower in FW than MRW and NMRW indicating the weak formation of acidic species in fog water. The observed alkalinity suggests that it is unlikely for acid precipitation to be present in this region.

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德里上空雾水中无机化学物质的变化

印度北部地区在冬季会出现大雾，对航空、公共交通、经济和公众生活等造成影响。德里是印度北部一个污染严重、人口众多的大城市，在冬季收集了雾水（FW）和非季候雨水（NMRW）样本。对收集到的 FW 和 NMRW 样品进行了无机化学成分（F-、Cl-、SO42-、NO3-、NH4+、Na+、K+、Ca2+ 和 Mg2+）分析。FW 的体积加权平均值（VWM）pH 值、电导率和总溶解固体（TDS）分别为 6.89、206 μS cm-1 和 107 mg L-1，表明碱性物质占主导地位。FW 和 NMRW 中测得的离子成分总量（TMIC）分别为 5,738 和 814 μeq L-1，表明德里的 FW 浓度很高。FW 中的 TMIC 浓度分别是 MRW 和 NMRW 样品的 16 倍和 7 倍。凋落物中无机酸类（SO42- 和 NO3-）的浓度远高于季风雨水（MRW：3 倍和 5 倍）和 NMRW（8 倍和 12 倍）。此外，NMRW 中的 SO42- 和 NO3- 浓度约为 MRW 的两倍，表明德里地区冬季的酸性物质浓度较高。1985 年至 2010 年期间，观察到 FW 中离子物种的平均浓度每十年显著增长（SO42--约 9 倍；NH4+--一倍）。然而，硝酸盐下降了约 28%。较高的 SO42- 可能来自燃烧含硫燃料的重型车辆。FW、MRW 和 NMRW 中的阴离子分别占 20%、42% 和 43%。不过，阳离子的贡献率分别为 80%、58% 和 57%。FW 中的阴离子含量低于 MRW 和 NMRW，这表明雾水中酸性物质的形成较弱。观测到的碱度表明，该地区不太可能存在酸性降水。

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