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Development of volatility distributions for organic matter in biomass burning emissions

Aditya Sinha, Ingrid George, Amara L. Holder, William Preston, Michael D. Hays, Andrew P. Grieshop

2022Environmental Science Atmospheres12 citationsDOIOpen Access PDF

Abstract

* ≤ 6). The S/I-VOC measurements were used to calculate volatility distributions for each emissions source. The distributions were broadly consistent across the sources with IVOCs accounting for 75% - 90% of the total captured organic matter, while SVOCs and LVOCs were responsible for 6% - 13% and 1% - 12%, respectively. The distributions and predicted partitioning were generally consistent with literature. Particulate matter emission factors spanned two orders of magnitude across the sources. This work highlights the potential of inferring gas-particle partitioning behavior of biomass burning emissions using filter-in-tube sorbent samples analyzed offline. This simplifies both sampling and analysis of S/I-VOCs for studies focused on capturing the full range of organics emitted.

Topics & Concepts

Volatility (finance)CombustionAerosolParticulatesEnvironmental scienceBiomass burningEnvironmental chemistrySorbentChemistryAtmospheric sciencesAdsorptionOrganic chemistryGeologyEconomicsFinancial economicsAtmospheric chemistry and aerosolsAir Quality and Health ImpactsVehicle emissions and performance
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