在荷兰,哪些化学物质导致了新粒子的形成和生长?基于气溶胶成分(ACSM)和粒径(SMPS)的混合正矩阵分解(PMF)分析

IF 5.2 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES
Farhan R. Nursanto, Roy Meinen, R. Holzinger, M. Krol, Xinya Liu, U. Dusek, B. Henzing, J. Fry
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引用次数: 1

摘要

摘要气溶胶的形成是气相大气物种的一个汇,控制着它们的大气寿命和环境影响。为了研究荷兰气溶胶的形成和演变,研究人员利用2021年5月、6月和9月在荷兰中部Cabauw农村地区收集的观测数据进行了混合正矩阵分解(PMF)分析。混合输入矩阵包括从飞行时间气溶胶化学物种形成监测仪(ToF-ACSM)获得的完整有机质谱,ACSM无机物种浓度,以及从扫描迁移度粒度仪(SMPS)获得的颗粒尺寸分布浓度。这些混合PMF分析发现了描述气溶胶成分变化的四个因素:与新颗粒形成(NPF)和生长相关的两个尺寸驱动因素(F4和f3),以及由成分而不是尺寸驱动的两个体积因素(F2和F1)。化学物质在这些因素中的分布表明,不同的化合物负责新粒子的成核和生长。最小直径尺寸因子(F4)包含硫酸铵和有机物,通常在白天达到峰值。新形成的颗粒以F4为代表,主要与西南-西风带和东风带向Cabauw输送硫氧化物(SOx)、氨(NH3)和有机前体的风有关。随着颗粒从f4到F3和体积因子的增长,硝酸盐和有机物的作用越来越大,颗粒负荷的日循环从白天的最大值转变为夜间的最大值。更大的有机物可利用性使得二次有机气溶胶(SOA)在夏季气溶胶生长中更有影响力,这主要是由于光氧化和温度的季节变化所产生的挥发性差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
What chemical species are responsible for new particle formation and growth in the Netherlands? A hybrid positive matrix factorization (PMF) analysis using aerosol composition (ACSM) and size (SMPS)
Abstract. Aerosol formation acts as a sink for gas-phase atmospheric species that controls their atmospheric lifetime and environmental effects. To investigate aerosol formation and evolution in the Netherlands, a hybrid positive matrix factorization (PMF) analysis was conducted using observations from May, June, and September 2021 collected in the rural site of Cabauw in the central part of the Netherlands. The hybrid input matrix consists of the full organic mass spectrum acquired from a time-of-flight aerosol chemical speciation monitor (ToF-ACSM), ACSM inorganic species concentrations, and binned particle size distribution concentrations from a scanning mobility particle sizer (SMPS). These hybrid PMF analyses discerned four factors that describe aerosol composition variations: two size-driven factors that are related to new particle formation (NPF) and growth (F4 and F3), as well as two bulk factors driven by composition, not size (F2 and F1). The distribution of chemical species across these factors shows that different compounds are responsible for nucleation and growth of new particles. The smallest-diameter size factor (F4) contains ammonium sulfate and organics and typically peaks during the daytime. Newly formed particles, represented by F4, are mainly correlated with wind from the southwesterly–westerly and easterly sectors that transport sulfur oxides (SOx), ammonia (NH3), and organic precursors to Cabauw. As the particles grow from F4 to F3 and to bulk factors, nitrate and organics play an increasing role, and the particle loading diurnal cycle shifts from daytime to a nighttime maximum. Greater organics availability makes secondary organic aerosol (SOA) more influential in summertime aerosol growth, principally due to volatility differences produced by seasonal variation in photooxidation and temperature.
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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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