家畜养殖场附近细尘气味物质及颗粒组成分析

H. Kim, Gang-Hyeong Lee, Yu-Na Park, Hyeon-Ju Ryu, Jongkwan Park, J. Jeon
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摘要

本研究旨在评估家畜养殖场密集地区的气味物质和细尘浓度,并对这些浓度进行相关性分析,以表征细尘的组成。粒径≤10 μm的颗粒物(PM10)和粒径≤2.5 μm的颗粒物(PM2.5)的细尘质量浓度分别为33.6~46.68 μ/m3和16.85~32.82 μ/m3。这些浓度高于大部分邻近地区。氨浓度在2.82~11.42 μ/m3之间。挥发性有机物(VOCs)、甲基乙基酮和甲苯的浓度分别为0.24~11.82 μ/m3和3.08~30.61 μ/m3。组成分析表明,微尘主要由8.2~10.2%的碳、0.3~1.7%的硫和0.1~0.9%的氮组成。阴离子的检测浓度高于阳离子,SO42-的检测浓度最高。在检测到的四种最常见的金属(即Al、B、Cu和Zn)中,Al在PM10和PM2.5中的浓度最高,占总金属成分的大部分(分别为84.7%和82.2%)。通过对粉尘中氨和VOC(甲基乙基酮和甲苯)浓度的相关性分析发现,畜牧业设施产生的氨影响了附近地区细尘的形成。附近工业设施排放的挥发性有机化合物也被认为是细颗粒物的组成部分。
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Analysis of Odor Substances and Particle Composition for Characterization of Fine Dust Near Livestock Farms
The present study aimed to evaluate the concentration of odor substances and fine dust in areas where livestock farms are densely located, and to perform a correlation analysis of these concentrations to characterize the composition of fine dust. The mass concentration of fine dust in the areas tested was 33.6~46.68 μ/m3 for particulate matter with a diameter ≤ 10 μm (PM10) and 16.85~32.82 μ/m3 for particulate matter with a diameter ≤ 2.5 μm (PM2.5). These concentrations were higher than those in most of the neighboring areas. Ammonia concentration was measured in the range of 2.82~11.42 μ/m3. The concentrations of the volatile organic compounds (VOCs), methyl ethyl ketone and toluene, were 0.24~11.82 μ/m3, and 3.08~30.61 μ/m3, respectively. Composition analysis showed that fine dust was composed of 8.2~10.2% carbon, 0.3~1.7% sulfur, and 0.1~0.9% nitrogen. Anions were detected at a higher concentration than cations, and SO42- was measured at the highest concentration. Of the four most prevalent metals detected (i.e., Al, B, Cu, and Zn), Al showed the highest concentration in both PM10 and PM2.5, and accounted for the majority of the total metal component (84.7% and 82.2%, respectively). A correlation analysis of find dust with ammonia and VOC (methyl ethyl ketone and toluene) concentrations showed that ammonia generated from livestock facilities affected the formation of fine dust in nearby areas. VOCs emitted from nearby industrial facilities were also considered to contribute to the constituents of fine dust.
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