Issue 12, 2022

Partitioning of reactive oxygen species from indoor surfaces to indoor aerosols

Abstract

Reactive oxygen species (ROS) are among the species thought to be responsible for the adverse health effects of particulate matter (PM) inhalation. Field studies suggest that indoor sources of ROS contribute to measured ROS on PM in indoor air. We hypothesize that ozone reacts on indoor surfaces to form semi-volatile ROS, in particular organic peroxides (OPX), which partition to airborne particles. To test this hypothesis, we modeled ozone-induced formation of OPX, its decay and its partitioning to PM in a residential building and compared the results to field measurements. Simulations indicate that, while ROS of outdoor origin is the primary contributor to indoor ROS (in PM), a substantial fraction of ROS present in indoor PM is from ozone-surface chemistry. At an air change rate equal to 1/h, and an outdoor ozone mixing ratio of 35 ppb, 25% of the ROS concentration in air is due to indoor formation and partitioning of OPX to PM. For the same conditions, but with a modest indoor source of PM (1.5 mg h−1), 44% of indoor ROS on PM is of indoor origin. An indoor source of ozone, such as an electrostatic air cleaner, also increases OPX present in indoor PM. The results of the simulations support the hypothesis that ozone-induced formation of OPX on indoor surfaces, and subsequent partitioning to aerosols, is sufficient to explain field observations. Therefore, indoor sourced ROS could contribute meaningfully to total inhaled PM-ROS.

Graphical abstract: Partitioning of reactive oxygen species from indoor surfaces to indoor aerosols

Supplementary files

Article information

Article type
Paper
Submitted
19 jul. 2022
Accepted
17 oct. 2022
First published
19 oct. 2022

Environ. Sci.: Processes Impacts, 2022,24, 2310-2323

Partitioning of reactive oxygen species from indoor surfaces to indoor aerosols

G. C. Morrison, A. Eftekhari, P. S. J. Lakey, M. Shiraiwa, B. E. Cummings, M. S. Waring and B. Williams, Environ. Sci.: Processes Impacts, 2022, 24, 2310 DOI: 10.1039/D2EM00307D

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