Concentrations and light absorption properties of PM2.5 organic and black carbon based on online measurements in Lanzhou, China

IF 6.9 Q1 Environmental Science
Pengfei Chen , Shichang Kang , Qinyi Gan , Ye Yu , Xianlei Yuan , Yajun Liu , Lekhendra Tripathee , Xiaoxiang Wang , Chaoliu Li
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引用次数: 2

Abstract

To elucidate the variations in mass concentrations of organic carbon (OC) and black carbon (BC) in PM2.5 and their light absorption characteristics in Lanzhou, we conducted one-year online measurements by using a newly developed total carbon analyzer (TCA08) coupled with an aethalometer (AE33) from July 2018 to July 2019. The mean OC and BC concentrations were 6.4 ± 4.4 and 2.0 ± 1.3 µg/m3, respectively. Clear seasonal variations were observed for both components, with winter having the highest concentrations, followed by autumn, spring, and summer. The diurnal variations of OC and BC concentrations were similar throughout the year, with daily two peaks occurring in the morning and evening, respectively. A relatively low OC/BC ratio (3.3 ± 1.2, n = 345) were observed, indicating that fossil fuel combustion was the primary source of the carbonaceous components. This is further substantiated by relatively low biomass burning contribution (fbiomass: 27.1% ± 11.3%) to BC using aethalometer based measurement though fbiomass value which increased significantly in winter (41.6% ± 5.7%). We estimated a considerable brown carbon (BrC) contribution to the total absorption coefficient (babs) at 370 nm (yearly average of 30.8% ± 11.1%), with a winter maximum of 44.2% ± 4.1% and a summer minimum of 19.2% ± 4.2%. Calculation of the wavelength dependence of total babs revealed an annual mean AAE370-520 value of 4.2 ± 0.5, with slightly higher values in spring and winter. The mass absorption cross-section of BrC also exhibited higher values in winter, with an annual mean of 5.4 ± 1.9 m2/g, reflecting the impact of emissions from increased biomass burning on BrC concentrations.

兰州地区PM2.5有机碳和黑碳浓度及吸光特性在线测量
为了阐明兰州PM2.5中有机碳(OC)和黑碳(BC)质量浓度的变化及其光吸收特性,我们在2018年7月至2019年7月期间,使用新开发的总碳分析仪(TCA08)和乙醚计(AE33)进行了为期一年的在线测量。OC和BC的平均浓度分别为6.4±4.4和2.0±1.3µg/m3。两种成分都有明显的季节变化,冬季浓度最高,其次是秋季、春季和夏季。OC和BC浓度的日变化在一年中是相似的,每天两个峰值分别出现在早上和晚上。观察到相对较低的OC/BC比(3.3±1.2,n=345),表明化石燃料燃烧是碳质成分的主要来源。使用基于以太流量计的测量,生物质燃烧对BC的贡献相对较低(fbiomass:27.1%±11.3%)进一步证实了这一点,尽管fbiomass值在冬季显著增加(41.6%±5.7%)。我们估计,在370nm处,棕碳(BrC)对总吸收系数(babs)的贡献相当大(年平均30.8%±11.1%),冬季最大值为44.2%±4.1%,夏季最小值为19.2%±4.2%。总babs的波长依赖性计算显示,年平均AAE370-520值为4.2±0.5,春季和冬季略高。BrC的质量吸收截面在冬季也表现出更高的值,年平均值为5.4±1.9 m2/g,反映了生物质燃烧增加排放对BrC浓度的影响。
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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来源期刊
Journal of environmental sciences
Journal of environmental sciences Environmental Science (General)
CiteScore
12.80
自引率
0.00%
发文量
0
审稿时长
17 days
期刊介绍: Journal of Environmental Sciences is an international peer-reviewed journal established in 1989. It is sponsored by the Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, and it is jointly published by Elsevier and Science Press. It aims to foster interdisciplinary communication and promote understanding of significant environmental issues. The journal seeks to publish significant and novel research on the fate and behaviour of emerging contaminants, human impact on the environment, human exposure to environmental contaminants and their health effects, and environmental remediation and management. Original research articles, critical reviews, highlights, and perspectives of high quality are published both in print and online.
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