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Impact of dry deposition of semi-volatile organic compounds on secondary organic aerosols
AbstractDry deposition of semi-volatile organic compounds (SVOC) is not currently treated in most chemical transport models of air quality and this omission has been identified as a possible major source of uncertainty. The effect of dry deposition of SVOC on the concentration of secondary organic aerosols (SOA) is investigated in summertime with the chemical transport model CHIMERE that simulates SOA concentrations by means of molecular SOA surrogate species. Omitting dry deposition could overestimate SOA concentrations by as much as 50%. This overestimation is larger during nighttime due to higher relative humidity.
Impact of dry deposition of semi-volatile organic compounds on secondary organic aerosols
AbstractDry deposition of semi-volatile organic compounds (SVOC) is not currently treated in most chemical transport models of air quality and this omission has been identified as a possible major source of uncertainty. The effect of dry deposition of SVOC on the concentration of secondary organic aerosols (SOA) is investigated in summertime with the chemical transport model CHIMERE that simulates SOA concentrations by means of molecular SOA surrogate species. Omitting dry deposition could overestimate SOA concentrations by as much as 50%. This overestimation is larger during nighttime due to higher relative humidity.
Impact of dry deposition of semi-volatile organic compounds on secondary organic aerosols
Bessagnet, Bertrand (author) / Seigneur, Christian (author) / Menut, Laurent (author)
Atmospheric Environment ; 44 ; 1781-1787
2010-01-19
7 pages
Article (Journal)
Electronic Resource
English
Understanding semi-volatile organic compounds in indoor dust
| SAGE Publications | 2022