Can we achieve atmospheric chemical environments in the laboratory? An integrated model-measurement approach to chamber SOA studies

Author(s)
Kenagy, Hannah SHeald, Colette LTahsini, NadiaGoss, Matthew BKroll, Jesse H
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Abstract
Secondary organic aerosol (SOA), atmospheric particulate matter formed from low-volatility products of volatile organic compound (VOC) oxidation, affects both air quality and climate. Current 3D models, however, cannot reproduce the observed variability in atmospheric organic aerosol. Because many SOA model descriptions are derived from environmental chamber experiments, our ability to represent atmospheric conditions in chambers directly affects our ability to assess the air quality and climate impacts of SOA. Here, we develop an approach that leverages global modeling and detailed mechanisms to design chamber experiments that mimic the atmospheric chemistry of organic peroxy radicals (RO2), a key intermediate in VOC oxidation. Drawing on decades of laboratory experiments, we develop a framework for quantitatively describing RO2 chemistry and show that no previous experimental approaches to studying SOA formation have accessed the relevant atmospheric RO2 fate distribution. We show proof-of-concept experiments that demonstrate how SOA experiments can access a range of atmospheric chemical environments and propose several directions for future studies.
Date issued
2024-09-13
URI
https://hdl.handle.net/1721.1/158122
Department
Massachusetts Institute of Technology. Department of Civil and Environmental EngineeringMassachusetts Institute of Technology. Department of Chemical Engineering
Journal
Science Advances
Publisher
American Association for the Advancement of Science
Citation
Kenagy, Hannah S, Heald, Colette L, Tahsini, Nadia, Goss, Matthew B and Kroll, Jesse H. 2024. "Can we achieve atmospheric chemical environments in the laboratory? An integrated model-measurement approach to chamber SOA studies." Science Advances, 10 (37).
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