Aerosol formation from the reaction of {alpha}pinene and ozone using a gas-phase kinetics-aerosol partitioning model

Kamens, R; Jang, M; Chien, C J; Leach, K

doi:10.1021/es980725r

Title: Aerosol formation from the reaction of {alpha}pinene and ozone using a gas-phase kinetics-aerosol partitioning model

Journal Article · Sat May 01 00:00:00 EDT 1999 · Environmental Science and Technology

DOI:https://doi.org/10.1021/es980725r· OSTI ID:354346

Kamens, R; Jang, M; Chien, C J; Leach, K ^[1]

Univ. of North Carolina, Chapel Hill, NC (United States). Dept. of Environmental Sciences and Engineering

As a result of new aerosol compositional information, the authors have implemented an exploratory model for predicting aerosol yields from the reaction of {alpha}-pinene with ozone in the atmosphere. This new approach has the ability to embrace a range of different atmospheric chemical conditions, which bring about biogenic aerosol formation. A kinetic mechanism was used to describe the gas-phase reactions of {alpha}-pinene with ozone. This reaction scheme produces low vapor pressure reaction products that distribute between gas and particle phases. Some of the products have subcooled liquid vapor pressures which are low enough to initiate self-nucleation. More volatile products such as pinonic acid and pinonaldehyde will not self-nucleate but will partition onto existing particle surfaces. Partitioning was treated as an equilibrium between the rate of particle uptake and rate of particle loss of semivolatile terpene reaction products. Given estimated liquid vapor pressures and activation energies of desorption, it was possible to calculate gas-particle equilibrium constants with aerosol desorption rate constants at different temperatures. This permitted an estimate of the rate of absorption from the gas phase. Gas- and aerosol-phase reactions were linked together in one chemical mechanism, and a chemical kinetics solver was used to predict reactant and product concentrations over time. Aerosol formation from the model was then compared with aerosol production observed from outdoor chamber experiments.

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OSTI ID:: 354346

Journal Information:: Environmental Science and Technology, Vol. 33, Issue 9; Other Information: PBD: 1 May 1999

Country of Publication:: United States

Language:: English

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54 ENVIRONMENTAL SCIENCES
AEROSOLS
ATMOSPHERIC CHEMISTRY
OZONE
AIR POLLUTION
MATHEMATICAL MODELS
HYDROCARBONS

Title: Aerosol formation from the reaction of {alpha}pinene and ozone using a gas-phase kinetics-aerosol partitioning model

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