Insights into chemical aging of urban aerosols over Delhi, India

Atmospheric particles can undergo aging as they are transported over long distances and mix with particles from other sources. This can lead to the accumulation of pollutants and the formation of complex aerosol mixtures with diverse chemical and physical properties. To investigate the process of ag...

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Published inAtmospheric Environment: X Vol. 24; p. 100296
Main Authors Pandey, Kartika, Mishra, Sumit Kumar, Singh, Bhanu Pratap, Khare, Mukesh, Sharma, Sudhir Kumar, Chandra Pandey, Avinash, Devi, Mamta, Ahlawat, Ajit
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2024
Elsevier
Subjects
Aerosol
Aging
Black carbon fractals
Deformed graphitic particles
Raman
Aging
Black carbon fractals
Raman
Deformed graphitic particles
Aerosol
Online AccessGet full text
ISSN2590-1621
2590-1621
DOI10.1016/j.aeaoa.2024.100296

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Abstract Atmospheric particles can undergo aging as they are transported over long distances and mix with particles from other sources. This can lead to the accumulation of pollutants and the formation of complex aerosol mixtures with diverse chemical and physical properties. To investigate the process of aging in ambient atmosphere, 24h sampling of PM2.5 aerosol particles on Quartz microfiber filter with a tin substrate was carried out from November 2020 to March 2021 at CSIR-National Physical Laboratory, New Delhi (28°38'10″ N and 77°10′17" E), using fine particle sampler. Based on the observations of weather and meteorological parameters, a few episodic cases have been selected, and samples were analyzed at bulk and individual particle level. The objective of the present study is to investigate the aging characteristics of aerosols, enabling us to understand the mixing of aerosols (at both bulk and individual particle levels) and the variation in fresh and deformed (aged with other species) graphitic content in the episodic cases. The Raman Spectroscopy technique employed measures the intensity of graphitic (G band; around 1580 cm−1) and disordered graphitic (D band; around 1320 cm−1) content of aerosols. Individual particle microscopic observations reveal the occurrence of open chain fractals of black carbon in variable monomer sizes, sometimes agglomerated with metals like Cu, Cr, Ca etc., along with the presence of S- rich and organic aerosols while the Raman Spectrum (bulk sample analysis) highlights graphitic and disordered (when graphite interacts with other chemical species) graphitic intensities. Comparing the intensities of heavy haze and moderate haze with non-haze days (for comparison purpose, March 23, 2021 with the lowest PM2.5 concentration ∼ 62 μg/m3, has been considered as a non-haze day), it was observed that the intensities recorded on haze days were 45 to 200 times higher for the G band and 43 to 93 times higher for the D band; while for moderate haze days, the intensities were 4 to 61 times higher for the G band and 2 to 29 times higher for the D band. These findings suggest chemical processing of BC during haze days. [Display omitted] •Metal analysis detects element-bound particulate matter such as Cu, Fe, Ca, and S.•Presence of high intensity graphitic and deformed graphitic particles were observed via Raman Spectroscopy.•The intensities recorded on haze days were 45–200 times more for G band and 43 to 93 times more for D band when compared to non-haze days.•Average weight % of Cu found is 27.1% (of all particles), S (7.12%), Ca (11.3%) in the FE-SEM images of aerosol particles.•Individual analysis revels the presence of both fresh and semi-aged/aged fractals of black carbon along with presence of copper rich particles.
AbstractList Atmospheric particles can undergo aging as they are transported over long distances and mix with particles from other sources. This can lead to the accumulation of pollutants and the formation of complex aerosol mixtures with diverse chemical and physical properties. To investigate the process of aging in ambient atmosphere, 24h sampling of PM2.5 aerosol particles on Quartz microfiber filter with a tin substrate was carried out from November 2020 to March 2021 at CSIR-National Physical Laboratory, New Delhi (28°38'10″ N and 77°10′17" E), using fine particle sampler. Based on the observations of weather and meteorological parameters, a few episodic cases have been selected, and samples were analyzed at bulk and individual particle level. The objective of the present study is to investigate the aging characteristics of aerosols, enabling us to understand the mixing of aerosols (at both bulk and individual particle levels) and the variation in fresh and deformed (aged with other species) graphitic content in the episodic cases. The Raman Spectroscopy technique employed measures the intensity of graphitic (G band; around 1580 cm−1) and disordered graphitic (D band; around 1320 cm−1) content of aerosols. Individual particle microscopic observations reveal the occurrence of open chain fractals of black carbon in variable monomer sizes, sometimes agglomerated with metals like Cu, Cr, Ca etc., along with the presence of S- rich and organic aerosols while the Raman Spectrum (bulk sample analysis) highlights graphitic and disordered (when graphite interacts with other chemical species) graphitic intensities. Comparing the intensities of heavy haze and moderate haze with non-haze days (for comparison purpose, March 23, 2021 with the lowest PM2.5 concentration ∼ 62 μg/m3, has been considered as a non-haze day), it was observed that the intensities recorded on haze days were 45 to 200 times higher for the G band and 43 to 93 times higher for the D band; while for moderate haze days, the intensities were 4 to 61 times higher for the G band and 2 to 29 times higher for the D band. These findings suggest chemical processing of BC during haze days. [Display omitted] •Metal analysis detects element-bound particulate matter such as Cu, Fe, Ca, and S.•Presence of high intensity graphitic and deformed graphitic particles were observed via Raman Spectroscopy.•The intensities recorded on haze days were 45–200 times more for G band and 43 to 93 times more for D band when compared to non-haze days.•Average weight % of Cu found is 27.1% (of all particles), S (7.12%), Ca (11.3%) in the FE-SEM images of aerosol particles.•Individual analysis revels the presence of both fresh and semi-aged/aged fractals of black carbon along with presence of copper rich particles.
Atmospheric particles can undergo aging as they are transported over long distances and mix with particles from other sources. This can lead to the accumulation of pollutants and the formation of complex aerosol mixtures with diverse chemical and physical properties. To investigate the process of aging in ambient atmosphere, 24h sampling of PM2.5 aerosol particles on Quartz microfiber filter with a tin substrate was carried out from November 2020 to March 2021 at CSIR-National Physical Laboratory, New Delhi (28°38'10″ N and 77°10′17'' E), using fine particle sampler. Based on the observations of weather and meteorological parameters, a few episodic cases have been selected, and samples were analyzed at bulk and individual particle level. The objective of the present study is to investigate the aging characteristics of aerosols, enabling us to understand the mixing of aerosols (at both bulk and individual particle levels) and the variation in fresh and deformed (aged with other species) graphitic content in the episodic cases. The Raman Spectroscopy technique employed measures the intensity of graphitic (G band; around 1580 cm−1) and disordered graphitic (D band; around 1320 cm−1) content of aerosols. Individual particle microscopic observations reveal the occurrence of open chain fractals of black carbon in variable monomer sizes, sometimes agglomerated with metals like Cu, Cr, Ca etc., along with the presence of S- rich and organic aerosols while the Raman Spectrum (bulk sample analysis) highlights graphitic and disordered (when graphite interacts with other chemical species) graphitic intensities. Comparing the intensities of heavy haze and moderate haze with non-haze days (for comparison purpose, March 23, 2021 with the lowest PM2.5 concentration ∼ 62 μg/m3, has been considered as a non-haze day), it was observed that the intensities recorded on haze days were 45 to 200 times higher for the G band and 43 to 93 times higher for the D band; while for moderate haze days, the intensities were 4 to 61 times higher for the G band and 2 to 29 times higher for the D band. These findings suggest chemical processing of BC during haze days.
ArticleNumber 100296
Author Singh, Bhanu Pratap
Pandey, Kartika
Chandra Pandey, Avinash
Devi, Mamta
Sharma, Sudhir Kumar
Ahlawat, Ajit
Mishra, Sumit Kumar
Khare, Mukesh
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  email: mishrask@nplindia.org
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  surname: Ahlawat
  fullname: Ahlawat, Ajit
  organization: Leibniz Institute for Tropospheric Research (TROPOS), Leipzig, 04318, Germany
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Black carbon fractals
Raman
Deformed graphitic particles
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Snippet Atmospheric particles can undergo aging as they are transported over long distances and mix with particles from other sources. This can lead to the...
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SubjectTerms Aerosol
Aging
Black carbon fractals
Deformed graphitic particles
Raman
Title Insights into chemical aging of urban aerosols over Delhi, India
URI https://dx.doi.org/10.1016/j.aeaoa.2024.100296
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