Particulate-bound alkyl nitrate pollution and formation mechanisms in Beijing, China

IF 5.2 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES Atmospheric Chemistry and Physics Pub Date : 2024-01-05 DOI:10.5194/acp-24-123-2024
Jiyuan Yang, Guoyang Lei, Jinfeng Zhu, Yutong Wu, Chang Liu, Kai Hu, Junsong Bao, Zitong Zhang, Weili Lin, Jun Jin
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Abstract

Abstract. Fine particulate matter (PM2.5) samples were collected between November 2020 and October 2021 at the Minzu University of China in Beijing, and the n-alkyl nitrate concentrations in the PM2.5 samples were determined to investigate n-alkyl nitrate pollution and formation mechanisms. C9–C16 n-alkyl nitrate standards were synthesized, and the n-alkyl nitrate concentrations in PM2.5 were determined by gas chromatography triple quadrupole mass spectrometry. Temporal trends in and correlations between particulate-bound n-alkyl nitrate, ozone, PM2.5, and nitrogen dioxide concentrations were investigated to assess the relationships between particulate-bound n-alkyl nitrate concentrations and gas-phase homogeneous reactions in the photochemical process and speculate the particulate-bound n-alkyl nitrates' formation mechanisms. The n-alkyl nitrate concentrations in the PM2.5 samples were 9.67–2730 pg m−3, and the mean was 578 pg m−3. The n-alkyl nitrate homologue group concentrations increased as the carbon chain length increased; i.e., long-chain n-alkyl nitrates contributed more than short-chain n-alkyl nitrates to the total n-alkyl nitrate concentrations in PM2.5. The n-alkyl nitrate concentrations clearly varied seasonally and diurnally, the concentrations decreasing in the order winter > spring > autumn > summer and the mean concentrations being higher at night than in the day. The particulate-bound n-alkyl nitrate and ozone concentrations significantly negatively correlated despite gas-phase alkyl nitrate and ozone concentrations previously being found to positively correlate. This indicated that long-chain alkyl nitrates may not be produced during gas-phase homogeneous reactions. The particulate-bound n-alkyl nitrate concentrations followed the same trends as and significantly positively correlated with the PM2.5 and nitrogen dioxide concentrations. Nitrogen dioxide is an important contributor of nitrates in particulate matter. This indicated that particulate-bound n-alkyl nitrates may form through non-homogeneous reactions between alkanes and nitrates on particulate matter surfaces. As secondary pollutants, particulate-bound alkyl nitrates are important components of PM2.5 during haze events and strongly affect haze pollution and atmospheric visibility.
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中国北京的颗粒烷基硝酸盐污染和形成机制
摘要2020年11月至2021年10月,在北京民族大学采集了细颗粒物(PM2.5)样品,测定了PM2.5样品中硝酸正烷基酯的浓度,以研究硝酸正烷基酯的污染及形成机理。合成了C9-C16硝酸正烷基酯标准物质,并采用气相色谱-三重四极杆质谱法测定了PM2.5中硝酸正烷基酯的浓度。研究了颗粒物结合的硝酸正烷基酯、臭氧、PM2.5 和二氧化氮浓度之间的时间趋势和相关性,以评估颗粒物结合的硝酸正烷基酯浓度与光化学过程中气相均相反应之间的关系,并推测颗粒物结合的硝酸正烷基酯的形成机制。PM2.5 样品中的硝酸正烷基酯浓度为 9.67-2730 pg m-3,平均值为 578 pg m-3。硝酸正烷基酯同族体的浓度随着碳链长度的增加而增加;也就是说,在 PM2.5 中硝酸正烷基酯的总浓度中,长链硝酸正烷基酯的浓度高于短链硝酸正烷基酯。硝酸正烷基酯的浓度有明显的季节和昼夜变化,浓度依次为冬季 > 春季 > 秋季 > 夏季,且夜间的平均浓度高于白天。尽管之前发现气相硝酸烷基酯和臭氧浓度呈正相关,但颗粒物结合的硝酸正烷基酯和臭氧浓度明显呈负相关。这表明在气相均相反应中可能不会产生长链烷基硝酸盐。与颗粒物结合的硝酸正烷基酯浓度与 PM2.5 和二氧化氮浓度的趋势相同,并呈显著正相关。二氧化氮是颗粒物中硝酸盐的重要来源。这表明,与颗粒物结合的正烷基硝酸盐可能是通过烷烃与颗粒物表面的硝酸盐发生非均相反应而形成的。作为二次污染物,颗粒物结合的烷基硝酸盐是灰霾天气中 PM2.5 的重要组成部分,对灰霾污染和大气能见度有很大影响。
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来源期刊
Atmospheric Chemistry and Physics
Atmospheric Chemistry and Physics 地学-气象与大气科学
CiteScore
10.70
自引率
20.60%
发文量
702
审稿时长
6 months
期刊介绍: Atmospheric Chemistry and Physics (ACP) is a not-for-profit international scientific journal dedicated to the publication and public discussion of high-quality studies investigating the Earth''s atmosphere and the underlying chemical and physical processes. It covers the altitude range from the land and ocean surface up to the turbopause, including the troposphere, stratosphere, and mesosphere. The main subject areas comprise atmospheric modelling, field measurements, remote sensing, and laboratory studies of gases, aerosols, clouds and precipitation, isotopes, radiation, dynamics, biosphere interactions, and hydrosphere interactions. The journal scope is focused on studies with general implications for atmospheric science rather than investigations that are primarily of local or technical interest.
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