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VOC Emission Rates from an Indoor Surface Using a Flux Chamber and PTR-MS

Published

Author(s)

Han Huynh, Jenna Ditto, Michael Link, Dustin Poppendieck, Delphine Farmer, Marina Vance, Jonathan Abbatt

Abstract

Arising from the Chemical Assessment of Surfaces and Air (CASA) 2022 study at the NIST Net-Zero Energy Residential Test Facility (NZERTF), this paper presents the first evaluation of indoor surface emissions to a house measured with a surface flux chamber coupled to an online, non-targeted volatile organic compound (VOC) mass spectrometric detection. These surface emissions are compared to those assessed using ambient, whole house indoor VOC measurements and the outdoor air change rate. Chamber emission rates varied by almost four orders of magnitude across 35 quantified VOCs. The whole house emissions measured by campaign-long ambient measurements and the flux chamber emissions (when scaled to the painted surface area of the house) are similar, with an average ratio between the two of 1.3 ± 1.0. The general agreement between these two approaches indicates that the flux chamber was not solely measuring primary emissions from building materials located below the chamber. Rather, the results suggest that over the 12-year house lifetime, VOCs have been widely distributed around the house, migrating from their primary sources to secondary surface reservoirs. With the house in a quasi-steady state, the thermodynamic activities (i.e., the vapor pressures) of the VOCs within the different reservoirs become similar. Emissions of aromatics and monoterpenes have declined since the house was built, whereas aldehyde emissions have remained relatively constant.
Citation
Atmospheric Environment

Keywords

flux chamber, indoor emissions, VOCs, indoor air

Citation

Huynh, H. , Ditto, J. , Link, M. , Poppendieck, D. , Farmer, D. , Vance, M. and Abbatt, J. (2024), VOC Emission Rates from an Indoor Surface Using a Flux Chamber and PTR-MS, Atmospheric Environment, [online], https://doi.org/10.1016/j.atmosenv.2024.120817, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=958146 (Accessed November 8, 2024)

Issues

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Created December 1, 2024, Updated September 27, 2024