Exploring fine-aerosol episodes in urban Seoul during the cold season of the 2021 SIJAQ campaign: Measurement evidences of heterogeneous reactions on black carbon particles

IF 4.2 2区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Atmospheric Environment Pub Date : 2024-11-13 DOI:10.1016/j.atmosenv.2024.120926

Saehee Lim , Min-Suk Bae , Jihi Jang , Anubhav Kumar Dwivedi , Junsu Gil , Joo ae Kim , Meehye Lee , Sea-Ho Oh , Sun-A Shin , Lim-Seok Chang

{"title":"Exploring fine-aerosol episodes in urban Seoul during the cold season of the 2021 SIJAQ campaign: Measurement evidences of heterogeneous reactions on black carbon particles","authors":"Saehee Lim , Min-Suk Bae , Jihi Jang , Anubhav Kumar Dwivedi , Junsu Gil , Joo ae Kim , Meehye Lee , Sea-Ho Oh , Sun-A Shin , Lim-Seok Chang","doi":"10.1016/j.atmosenv.2024.120926","DOIUrl":null,"url":null,"abstract":"<div><div>Significant PM2.5 pollution has been prevalent on a regional scale in East Asia including a megacity Seoul in South Korea. Here, we explore fine-aerosol episodes occurred in Seoul during the Satellite Integrated Joint monitoring of Air Quality (SIJAQ) campaign from October to November of the 2021, focusing on experimental evidences of heterogeneous reactions to form secondary aerosol under a highly oxidized atmospheric condition.</div><div>At this urban site in Seoul, vehicle exhaust was the clear source of fresh emissions, leading to a high level of NO and small refractory black carbon (rBC) particles (mass median diameter of 162 nm ± 16 nm) in the morning time. The hourly mass concentration of PM2.5 ranged from 5.3 μg m−3 to 146.1 μg m−3, averaging at 24.5 ± 22.2 μg m−3. During the campaign, the most intense episode, EP3 (November 18–21), recorded an average PM2.5 concentration of 72.5 ± 38.2 μg m−3, peaking at 146.1 μg m−3, was characterized by relatively higher temperature (∼12 °C) and relative humidity (67 %) on average thoroughly governed by continental migratory high and westerly winds. While the average NO3− concentration was 27.7 μg m−3, four times the whole campaign's average, EP3 was highlighted by a high morning NO2/NOx ratio and significantly elevated daytime and nighttime Ox (O3+NO2) concentrations compared to non-episode days. Throughout the entire campaign, NOz surrogate (NO2(CL)-NO2(T)), Ox, and Fmoderate + thick (the combined number fractions of moderately and thickly coated-rBC particles) tended to increase with the PM2.5 concentration. During the daytime, as PM2.5 increased, Fmoderate + thick showed a monotonic increase, accompanied by RH rising from 54 ± 16% to 63 ± 11%. In contrast, at nighttime of humid condition with RH often exceeding 70% the enhancement of Fmoderate + thick was more sensitive to condensable gas levels than RH. Given that high levels of PM2.5 (>60 μg m−3) were observed only during EP3, enhanced levels of NOz surrogate, Ox, Fmoderate + thick, and RH were evident characteristics of EP3. Such chemical and meteorological conditions suggest that the chemically enhanced oxidation state was evident during EP3, which promoted the formation of secondary aerosols on primary particles including rBC, especially under conditions of elevated RH. Considering the recent trend of increasing number of vehicles and rising atmospheric O3 concentrations in East Asia, future studies should be well designed to investigate the detailed mechanisms involved in heterogeneous reactions that lead to the formation of secondary aerosols.</div></div>","PeriodicalId":250,"journal":{"name":"Atmospheric Environment","volume":"342 ","pages":"Article 120926"},"PeriodicalIF":4.2000,"publicationDate":"2024-11-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Atmospheric Environment","FirstCategoryId":"93","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S1352231024006010","RegionNum":2,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}

引用次数: 0

Abstract

Significant PM_2.5 pollution has been prevalent on a regional scale in East Asia including a megacity Seoul in South Korea. Here, we explore fine-aerosol episodes occurred in Seoul during the Satellite Integrated Joint monitoring of Air Quality (SIJAQ) campaign from October to November of the 2021, focusing on experimental evidences of heterogeneous reactions to form secondary aerosol under a highly oxidized atmospheric condition.

At this urban site in Seoul, vehicle exhaust was the clear source of fresh emissions, leading to a high level of NO and small refractory black carbon (rBC) particles (mass median diameter of 162 nm ± 16 nm) in the morning time. The hourly mass concentration of PM_2.5 ranged from 5.3 μg m⁻³ to 146.1 μg m⁻³, averaging at 24.5 ± 22.2 μg m⁻³. During the campaign, the most intense episode, EP3 (November 18–21), recorded an average PM_2.5 concentration of 72.5 ± 38.2 μg m⁻³, peaking at 146.1 μg m⁻³, was characterized by relatively higher temperature (∼12 °C) and relative humidity (67 %) on average thoroughly governed by continental migratory high and westerly winds. While the average NO₃⁻ concentration was 27.7 μg m⁻³, four times the whole campaign's average, EP3 was highlighted by a high morning NO₂/NO_x ratio and significantly elevated daytime and nighttime O_x (O₃+NO₂) concentrations compared to non-episode days. Throughout the entire campaign, NO_z surrogate (NO_2(CL)-NO_2(T)), O_x, and F_{moderate + thick} (the combined number fractions of moderately and thickly coated-rBC particles) tended to increase with the PM_2.5 concentration. During the daytime, as PM_2.5 increased, F_{moderate + thick} showed a monotonic increase, accompanied by RH rising from 54 ± 16% to 63 ± 11%. In contrast, at nighttime of humid condition with RH often exceeding 70% the enhancement of F_{moderate + thick} was more sensitive to condensable gas levels than RH. Given that high levels of PM_2.5 (>60 μg m⁻³) were observed only during EP3, enhanced levels of NO_z surrogate, O_x, F_{moderate + thick,} and RH were evident characteristics of EP3. Such chemical and meteorological conditions suggest that the chemically enhanced oxidation state was evident during EP3, which promoted the formation of secondary aerosols on primary particles including rBC, especially under conditions of elevated RH. Considering the recent trend of increasing number of vehicles and rising atmospheric O₃ concentrations in East Asia, future studies should be well designed to investigate the detailed mechanisms involved in heterogeneous reactions that lead to the formation of secondary aerosols.

查看原文本刊更多论文

探索 2021 年 SIJAQ 活动寒冷季节首尔市区的细微气溶胶事件：黑碳颗粒异质反应的测量证据

包括韩国特大城市首尔在内的东亚地区普遍存在严重的 PM2.5 污染。在此，我们探讨了 2021 年 10 月至 11 月空气质量卫星综合联合监测（SIJAQ）活动期间首尔发生的微细气溶胶事件，重点是在高度氧化的大气条件下异质反应形成二次气溶胶的实验证据。在首尔的这个城市站点，汽车尾气是明显的新鲜排放源，导致早晨出现大量氮氧化物和小难熔黑碳（rBC）颗粒（质量中值直径为 162 nm ± 16 nm）。PM2.5 的每小时质量浓度从 5.3 μg m-3 到 146.1 μg m-3 不等，平均为 24.5 ± 22.2 μg m-3。在这次活动中，强度最大的 EP3 阶段（11 月 18-21 日）的 PM2.5 平均浓度为 72.5 ± 38.2 μg m-3，峰值为 146.1 μg m-3，受大陆性偏高和西风的影响，平均温度（12 °C）和相对湿度（67%）相对较高。虽然 NO3- 的平均浓度为 27.7 μg m-3，是整个活动平均值的四倍，但与非活动日相比，EP3 的突出特点是早晨 NO2/NOx 比率较高，白天和夜间 Ox（O3+NO2）浓度显著升高。在整个活动期间，NOz 代用值（NO2(CL)-NO2(T)）、Ox 和 Fmoderate + thick（中等和较厚包覆-红细胞颗粒的综合数量分数）趋向于随 PM2.5 浓度的增加而增加。在白天，随着 PM2.5 的增加，Fmoderate + thick 呈单调增加，同时相对湿度从 54 ± 16% 上升到 63 ± 11%。相反，在夜间潮湿的条件下，相对湿度往往超过 70%，中浓氨的增强对可凝性气体水平比相对湿度更敏感。鉴于只有在 EP3 期间才观测到高水平的 PM2.5（60 μg m-3），NOz 替代物、Ox、Fmoderate + thick 和相对湿度水平的增强是 EP3 的明显特征。这些化学和气象条件表明，在 EP3 期间，化学氧化状态明显增强，这促进了包括 rBC 在内的初级粒子上二次气溶胶的形成，尤其是在相对湿度升高的条件下。考虑到近来东亚地区车辆数量增加和大气中臭氧浓度上升的趋势，未来的研究应精心设计，以调查导致二次气溶胶形成的异质反应的详细机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Atmospheric Environment 环境科学-环境科学

CiteScore

9.40

自引率

8.00%

发文量

458

审稿时长

53 days

期刊介绍： Atmospheric Environment has an open access mirror journal Atmospheric Environment: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Atmospheric Environment is the international journal for scientists in different disciplines related to atmospheric composition and its impacts. The journal publishes scientific articles with atmospheric relevance of emissions and depositions of gaseous and particulate compounds, chemical processes and physical effects in the atmosphere, as well as impacts of the changing atmospheric composition on human health, air quality, climate change, and ecosystems.