New Year Fireworks Influence on Air Quality in Case of Stagnant Foggy Conditions

Audrė Kalinauskaitė, L. Davulienė, J. Pauraitė, A. Minderytė, S. Byčenkienė
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Abstract

Urban science plays a pivotal role in understanding the complex interactions between fireworks, air quality, and urban environments. Dense firework smoke worsens air quality and poses a health hazard to the public. In this study, we show a situation where extremely foggy meteorological conditions coincided with intense anthropogenic emissions, including fireworks, in an urban area. For the first time, the chemical composition and sources of non-refractory submicron aerosol (NR-PM1) in outdoor and indoor air were characterized in Vilnius (Lithuania) using an aerosol chemical speciation monitor (ACSM) and Positive Matrix Factorization for the period before the fireworks, on New Year’s Eve, and after the fireworks in 2020/2021; thus, typical changes were assessed. Due to stagnant weather conditions and increased traffic, the highest concentrations of black carbon (BC) (13.8 μg/m3) were observed before the fireworks display. The contribution of organic (Org) fraction to the total NR-PM1 mass concentration, in the comparison of the values of a typical night and New Year’s Eve (from 9 p.m. to 6 a.m.), increased from 43% to 70% and from 47% to 60% in outdoor and indoor air, respectively. Biomass-burning organic aerosol (BBOA, 48% (44%)) and hydrocarbon-like organic aerosol (HOA, 35% (21%)) dominated the organic fraction indoors and outdoors, respectively. HOA was likely linked to increased traffic during the event, while BBOA may have been related to domestic heating and fireworks.
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新年烟花爆竹对雾霾停滞条件下空气质量的影响
城市科学在理解烟花、空气质量和城市环境之间复杂的相互作用方面发挥着举足轻重的作用。密集的烟花烟雾会恶化空气质量,对公众健康造成危害。在这项研究中,我们展示了在极端多雾的气象条件下,城市地区人为排放(包括烟花爆竹)密集的情况。我们首次使用气溶胶化学特性监测仪(ACSM)和正矩阵因式分解法,对立陶宛维尔纽斯市 2020/2021 年烟花爆竹燃放前、除夕夜和烟花爆竹燃放后室外和室内空气中的非耐火亚微米气溶胶(NR-PM1)的化学成分和来源进行了描述,从而评估了其典型变化。由于停滞的天气条件和交通流量的增加,烟花燃放前观测到的黑碳(BC)浓度最高(13.8 μg/m3)。在室外和室内空气中,有机物(Org)在 NR-PM1 总质量浓度中所占的比例,与平常夜晚和除夕夜(晚上 9 点到早上 6 点)的数值相比,分别从 43% 增加到 70%,从 47% 增加到 60%。生物质燃烧有机气溶胶(BBOA,48% (44%))和类碳氢化合物有机气溶胶(HOA,35% (21%))分别在室内和室外的有机成分中占主导地位。HOA可能与活动期间交通流量增加有关,而BBOA可能与家庭取暖和烟花爆竹有关。
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