Vertically decreased VOC concentration and reactivity in the planetary boundary layer in winter over the North China Plain

Vertically decreased VOC concentration and reactivity in the planetary boundary layer in winter over the North China Plain

The vertical structure of volatile organic compounds (VOCs) is important to understanding the formation mechanisms of O3 and secondary organic aerosol (SOA). To explore the vertical evolution characteristics of VOCs, an observational field campaign using a tethered balloon was carried out in Yuanshi...

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Veröffentlicht in:Atmospheric research 2020-08, Vol.240, p.104930, Article 104930
Hauptverfasser: Wu, Shuang, Tang, Guiqian, Wang, Yinghong, Yang, Yang, Yao, Dan, Zhao, Wei, Gao, Wenkang, Sun, Jie, Wang, Yuesi
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Sprache:eng
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acetylene
aerosols
alkanes
alkenes
aromatic compounds
China
convection
meteorological parameters
nitrates
ozone
PBL
SOA
troposphere
Vertical profile
VOCs
volatile organic compounds
winter
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container_issue
container_start_page 104930
container_title Atmospheric research
container_volume 240
creator Wu, Shuang
Tang, Guiqian
Wang, Yinghong
Yang, Yang
Yao, Dan
Zhao, Wei
Gao, Wenkang
Sun, Jie
Wang, Yuesi
description The vertical structure of volatile organic compounds (VOCs) is important to understanding the formation mechanisms of O3 and secondary organic aerosol (SOA). To explore the vertical evolution characteristics of VOCs, an observational field campaign using a tethered balloon was carried out in Yuanshi County, Shijiazhuang, from January 8 to 16, 2019. Meteorological variables of the planetary boundary layer (PBL) were measured, and 83 VOC samples were collected. The concentrations of 87 compounds and a total of 10 vertical profiles were obtained. The VOC concentration gradually decreased from the surface to 1000 m, decreasing by 34.8% from the surface to 400 m and 11.4% from 400 m to 1000 m. The proportion of alkanes increased from 60.2% to 79.0%; the proportions of alkenes, halohydrocarbons, and acetylene decreased from 11.8%, 12.3%, and 4.2% to 4.5%, 2.8%, and 1.8%, respectively; and the proportion of aromatics changed very little. The vertical evolution of VOCs had responses to different meteorological conditions in the PBL. The concentration decreased slower in a strong convection state than in a stable state. The VOC concentration at night was higher in the stable boundary layer (SBL) (235 ± 135 ppbv) than in the residual layer (RL) (181 ± 135 ppbv). The concentration and NO3 loss rate of alkenes decreased in the RL at night, implying that the nighttime SOA formation potential may be weaker in the RL. [Display omitted] •VOCs vertical profiles were obtained in the boundary layer.•The VOC concentration gradually decreased with height in the boundary layer in winter.•The vertical evolution of VOCs had responses to atmospheric stability.•Nighttime SOA formation potential may be weaker in the residual layer.
doi_str_mv 10.1016/j.atmosres.2020.104930
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The VOC concentration at night was higher in the stable boundary layer (SBL) (235 ± 135 ppbv) than in the residual layer (RL) (181 ± 135 ppbv). The concentration and NO3 loss rate of alkenes decreased in the RL at night, implying that the nighttime SOA formation potential may be weaker in the RL. 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The VOC concentration at night was higher in the stable boundary layer (SBL) (235 ± 135 ppbv) than in the residual layer (RL) (181 ± 135 ppbv). The concentration and NO3 loss rate of alkenes decreased in the RL at night, implying that the nighttime SOA formation potential may be weaker in the RL. 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To explore the vertical evolution characteristics of VOCs, an observational field campaign using a tethered balloon was carried out in Yuanshi County, Shijiazhuang, from January 8 to 16, 2019. Meteorological variables of the planetary boundary layer (PBL) were measured, and 83 VOC samples were collected. The concentrations of 87 compounds and a total of 10 vertical profiles were obtained. The VOC concentration gradually decreased from the surface to 1000 m, decreasing by 34.8% from the surface to 400 m and 11.4% from 400 m to 1000 m. The proportion of alkanes increased from 60.2% to 79.0%; the proportions of alkenes, halohydrocarbons, and acetylene decreased from 11.8%, 12.3%, and 4.2% to 4.5%, 2.8%, and 1.8%, respectively; and the proportion of aromatics changed very little. The vertical evolution of VOCs had responses to different meteorological conditions in the PBL. The concentration decreased slower in a strong convection state than in a stable state. The VOC concentration at night was higher in the stable boundary layer (SBL) (235 ± 135 ppbv) than in the residual layer (RL) (181 ± 135 ppbv). The concentration and NO3 loss rate of alkenes decreased in the RL at night, implying that the nighttime SOA formation potential may be weaker in the RL. [Display omitted] •VOCs vertical profiles were obtained in the boundary layer.•The VOC concentration gradually decreased with height in the boundary layer in winter.•The vertical evolution of VOCs had responses to atmospheric stability.•Nighttime SOA formation potential may be weaker in the residual layer.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.atmosres.2020.104930</doi></addata></record>
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subjects acetylene
aerosols
alkanes
alkenes
aromatic compounds
China
convection
meteorological parameters
nitrates
ozone
PBL
SOA
troposphere
Vertical profile
VOCs
volatile organic compounds
winter
title Vertically decreased VOC concentration and reactivity in the planetary boundary layer in winter over the North China Plain
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