Estimation of particle size distributions in the atmosphere—analysis of Fe and Ca particles as the representative examples

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
Hyunwoo Youn, Kenji Miki, Ayumi Iwata, Tomoaki Okuda
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引用次数: 0

Abstract

Atmospheric aerosols, including primary aerosols emitted directly into the atmosphere and secondary aerosols generated in the atmosphere from various chemically complex particles, cause a variety of environmental problems such as climate change, photochemical smog formation, and a decrease in incoming solar radiation. Therefore, it is important to understand the causes of aerosol particles and their impact on human society. In particular, particle size is an important indicator of lung penetration depth, aerosol transport, and optical properties. Hence, we mathematically estimated the airborne particle size distributions of each chemical component by collecting aerosol samples from the atmosphere using two types of cyclone samplers, large and small cyclone samplers. This study’s findings also suggest that calculated changes in particle size distribution can reflect changes in particle sources. The higher resolution of the continuous functions will enable the detection of the subtle changes in particle size distributions of each chemical component, which is helpful to understand the temporal changes in the chemical properties of the airborne aerosol particles.

大气中颗粒尺寸分布的估算——以Fe和Ca颗粒为代表的分析
大气气溶胶,包括直接排放到大气中的一次气溶胶和在大气中由各种化学复合粒子生成的二次气溶胶,会导致气候变化、光化学烟雾形成和入射太阳辐射减少等各种环境问题。因此,了解气溶胶粒子的成因及其对人类社会的影响非常重要。其中,颗粒大小是肺穿透深度、气溶胶迁移和光学特性的重要指标。因此,我们通过使用两种气旋采样器(大气旋采样器和小气旋采样器)从大气中采集气溶胶样本,用数学方法估算了每种化学成分在空气中的粒径分布。这项研究的结果还表明,计算得出的粒径分布变化可以反映出颗粒来源的变化。连续函数的分辨率较高,可以检测到每种化学成分的粒径分布的细微变化,这有助于了解气载气溶胶粒子化学性质的时间变化。
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来源期刊
Asian Journal of Atmospheric Environment
Asian Journal of Atmospheric Environment METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
2.80
自引率
6.70%
发文量
22
审稿时长
21 weeks
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