Hygroscopicity and mass transfer limit of mixed glutaric acid/MgSO4/water particles

Feng Min Wu; Xiao Wei Wang; Shu Feng Pang; Yun Hong Zhang

doi:10.1016/j.saa.2021.119790

Hygroscopicity and mass transfer limit of mixed glutaric acid/MgSO₄/water particles

Feng Min Wu, Xiao Wei Wang, Shu Feng Pang^*, Yun Hong Zhang

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

Tropospheric aerosols are usually complex mixtures of inorganic and organic components, which show non-ideal behavior in hygroscopicity, mass transfer, and partitioning between gas and aerosols. In this study, we applied a novel approach based on a combination of a pulse RH controlling system and a rapid scan vacuum FTIR spectrometer to investigate the mass transfer limit of magnesium sulfate/glutaric acid (GA) mixture aerosol particles. The liquid water band area of the aerosols is used to reveal the mass transfer limit during the rapid pulse RH downward and upward processes. Partitioning equilibrium between the aerosol particles and water gas phase is observed at the higher RH range (73–50%). When the RH is lower than 40%, there is a hysteresis for the liquid water content changing with the RH, indicating the limited water mass transfer in the aerosols.

源语言	英语
文章编号	119790
期刊	Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy
卷	258
DOI	https://doi.org/10.1016/j.saa.2021.119790
出版状态	已出版 - 5 9月 2021

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title = "Hygroscopicity and mass transfer limit of mixed glutaric acid/MgSO4/water particles",

abstract = "Tropospheric aerosols are usually complex mixtures of inorganic and organic components, which show non-ideal behavior in hygroscopicity, mass transfer, and partitioning between gas and aerosols. In this study, we applied a novel approach based on a combination of a pulse RH controlling system and a rapid scan vacuum FTIR spectrometer to investigate the mass transfer limit of magnesium sulfate/glutaric acid (GA) mixture aerosol particles. The liquid water band area of the aerosols is used to reveal the mass transfer limit during the rapid pulse RH downward and upward processes. Partitioning equilibrium between the aerosol particles and water gas phase is observed at the higher RH range (73–50%). When the RH is lower than 40%, there is a hysteresis for the liquid water content changing with the RH, indicating the limited water mass transfer in the aerosols.",

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author = "Wu, {Feng Min} and Wang, {Xiao Wei} and Pang, {Shu Feng} and Zhang, {Yun Hong}",

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AU - Wu, Feng Min

AU - Wang, Xiao Wei

AU - Pang, Shu Feng

AU - Zhang, Yun Hong

PY - 2021/9/5

Y1 - 2021/9/5

N2 - Tropospheric aerosols are usually complex mixtures of inorganic and organic components, which show non-ideal behavior in hygroscopicity, mass transfer, and partitioning between gas and aerosols. In this study, we applied a novel approach based on a combination of a pulse RH controlling system and a rapid scan vacuum FTIR spectrometer to investigate the mass transfer limit of magnesium sulfate/glutaric acid (GA) mixture aerosol particles. The liquid water band area of the aerosols is used to reveal the mass transfer limit during the rapid pulse RH downward and upward processes. Partitioning equilibrium between the aerosol particles and water gas phase is observed at the higher RH range (73–50%). When the RH is lower than 40%, there is a hysteresis for the liquid water content changing with the RH, indicating the limited water mass transfer in the aerosols.

AB - Tropospheric aerosols are usually complex mixtures of inorganic and organic components, which show non-ideal behavior in hygroscopicity, mass transfer, and partitioning between gas and aerosols. In this study, we applied a novel approach based on a combination of a pulse RH controlling system and a rapid scan vacuum FTIR spectrometer to investigate the mass transfer limit of magnesium sulfate/glutaric acid (GA) mixture aerosol particles. The liquid water band area of the aerosols is used to reveal the mass transfer limit during the rapid pulse RH downward and upward processes. Partitioning equilibrium between the aerosol particles and water gas phase is observed at the higher RH range (73–50%). When the RH is lower than 40%, there is a hysteresis for the liquid water content changing with the RH, indicating the limited water mass transfer in the aerosols.

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KW - Magnesium sulfate/glutaric acid

KW - Mass transfer limit

KW - Pulse RH

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Hygroscopicity and mass transfer limit of mixed glutaric acid/MgSO4/water particles

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Hygroscopicity and mass transfer limit of mixed glutaric acid/MgSO₄/water particles