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Partitioning of Semivolatile Organic Compounds in the Presence of a Secondary Organic Aerosol in a Controlled Atmosphere
Authors:Keri B. Leach  Richard M. Kamens  Michael R. Strommen  Myoseon Jang
Affiliation:(1) Department of Environmental Sciences and Engineering, University of North Carolina, Chapel Hill, NC, 27599–7400, U.S.A
Abstract:The gas-particle partitioning of select semivolatile organic compounds (SOCs) was studied by injecting the SOCs into a 190 m3 Teflon film chamber containing a secondary organic aerosol (SOA) generated by volatilizing liquid agr-pinene into an ozone-concentrated atmosphere. The concentration of total suspended particulates (TSP) and gas and particle-phase SOCs was measured over the course of three experiments spanning a temperature range of 268–297 K and a relative humidity range of 55–100%. An equilibrium partition coefficient, Kp, was calculated for each sampling event. Empirical relationships were then developed to predict the partitioning of the SOCs on the SOA particle source as a function of temperature. Partitioning in this SOA system was compared to that of a SOA generated by the photochemical reaction of NOx with m-xylene. The results indicate that partitioning is similar between the two SOA systems. The effects of multiple particle sources on partitioning was also examined, revealing that a weighted average of predicted Kp values for individual sources can be used to predict partitioning in aerosol mixtures.
Keywords:gas-particle partitioning  secondary organic aerosol    /content/j4256888xx242834/xxlarge945.gif"   alt="  agr"   align="  BASELINE"   BORDER="  0"  >-pinene  ozone
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