Multi-Elemental Characterization of PM0.4–0.7 and PM1.1–2.1 in the Ambient Air of Isfahan (Iran) Complemented by the Speciation of Mn and Cr Using SR-XANES

(2020) Multi-Elemental Characterization of PM0.4–0.7 and PM1.1–2.1 in the Ambient Air of Isfahan (Iran) Complemented by the Speciation of Mn and Cr Using SR-XANES. Aerosol Science and Engineering. pp. 124-136. ISSN 2510375X (ISSN)

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Abstract

In the present paper, we seek to study the interaction of desert dust and urban pollution in the particulate matter (PM) of an urban area of Isfahan, Iran, where anthropogenic and natural emission sources substantially contributed to the urban emission inventory. We used an eight-stage Anderson Cascade Impactor (ACI) for size-segregated sampling from the Isfahan PM for autumn 2017. According to the gravimetric analysis results, our study concentrated on the fractions with the largest mass concentrations, i.e. aerosols with sizes from 0.4 to 0.7 µm (PM0.4–0.7) and from 1.1 to 2.1 µm (PM1.1–2.1). We then employed chemical and optical methods for the multi-elemental characterization of the size-segregated particles and analyzing the interactions between the desert dust and urban pollution. The absorption-near-edge-structure (XANES) spectroscopy technique was also applied here for the speciation of Mn and Cr in the studied fractions. Our results showed that PM1.1–2.1 dominated by the dust particles, and particles originated by the fuel combustion have a significant contribution to the fraction PM0.4–0.7. The mass concentration of the iron element in the PM0.4–0.7 was higher than that in the PM1.1–2.1. The significant contribution of iron-rich particles to both studied fractions demonstrates that anthropogenic sources play an important role in the air quality degradation of the city. The interaction of desert dust and urban pollution was notably achieved in the fraction PM0.4–0.7, but the fraction PM1.1–2.1 is comprised predominantly of regular-shaped particles with the origin of natural sources (desert dust). XANES results argued that Cr and Mn species exist mainly in the trivalent and divalent oxidation states in the studied area, respectively. The weathering and surrounding conditions of the city could moderately develop the oxidation states of Cr and Mn. © 2020, Institute of Earth Environment, Chinese Academy Sciences.

Item Type: Article
Keywords: Aerosol morphology Ambient aerosols Chemical characterization Isfahan SEM–EDX SR-XANES
Subjects: WA Public Health > WA 670-847 Environmental Pollution. Sanitation
Divisions: Other
Page Range: pp. 124-136
Journal or Publication Title: Aerosol Science and Engineering
Journal Index: Scopus
Volume: 4
Number: 2
Identification Number: https://doi.org/10.1007/s41810-020-00059-1
ISSN: 2510375X (ISSN)
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/12574

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