A conceptual framework for mixing structures in individual aerosol particles

A conceptual framework for mixing structures in individual aerosol particles

This study investigated the particle size‐ and age‐dependent mixing structures of individual particles in clean and polluted air. Aerosols were classified into eight components: sea salt, mineral dust, fly ash, metal, soot, sulfates, nitrates, and organic matter (OM). Based on our aerosol classifica...

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Veröffentlicht in:Journal of geophysical research. Atmospheres 2016-11, Vol.121 (22), p.13,784-13,798
Hauptverfasser: Li, Weijun, Sun, Jiaxing, Xu, Liang, Shi, Zongbo, Riemer, Nicole, Sun, Yele, Fu, Pingqing, Zhang, Jianchao, Lin, Yangting, Wang, Xinfeng, Shao, Longyi, Chen, Jianmin, Zhang, Xiaoye, Wang, Zifa, Wang, Wenxing
Format: Artikel
Sprache:eng
Schlagworte:
Aerosol formation
Aerosol particles
Aerosols
Age
Ageing
Aging
Air
Air pollution
Airborne particulates
Atmospheric particulates
Atoms & subatomic particles
Chemical properties
Chemicophysical properties
Classification
Coating
Components
Core-shell structure
Dehydration
Dispersion
Dispersions
Dust
Dust storms
Emission
Evolution
Fly ash
Frameworks
Geophysics
Hydration
Identification
Indicators
individual particle
Metals
morphological mixing state
Nitrates
Optical properties
Organic matter
Particle size
Phases
Properties
Relative humidity
Secondary aerosols
Soot
Structures
Studies
Sulfates
Sulphates
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Zusammenfassung:This study investigated the particle size‐ and age‐dependent mixing structures of individual particles in clean and polluted air. Aerosols were classified into eight components: sea salt, mineral dust, fly ash, metal, soot, sulfates, nitrates, and organic matter (OM). Based on our aerosol classification, a particle that consists of two or more aerosol components can be defined as an internally mixed particle. Otherwise, it is considered to be an externally mixed particle. Within the internally mixed particle class, we identified four heterogeneous mixing structures: core‐shell, dumbbell, OM coating, and dispersed OM, as well as one homogeneous‐like mixing structure. Homogeneous‐like mixing mainly occurred in fine particles (
ISSN:2169-897X
2169-8996
DOI:10.1002/2016JD025252