| Literature DB >> 31004533 |
Kasper Kristensen1, David M Lunderberg1,2, Yingjun Liu1, Pawel K Misztal1, Yilin Tian1,3, Caleb Arata1,2, William W Nazaroff3, Allen H Goldstein1,3.
Abstract
Semivolatile organic compounds (SVOCs) emitted from building materials, consumer products, and occupant activities alter the composition of air in residences where people spend most of their time. Exposures to specific SVOCs potentially pose risks to human health. However, little is known about the chemical complexity, total burden, and dynamic behavior of SVOCs in residential environments. Furthermore, little is known about the influence of human occupancy on the emissions and fates of SVOCs in residential air. Here, we present the first-ever hourly measurements of airborne SVOCs in a residence during normal occupancy. We employ state-of-the-art semivolatile thermal-desorption aerosol gas chromatography (SV-TAG). Indoor air is shown consistently to contain much higher levels of SVOCs than outdoors, in terms of both abundance and chemical complexity. Time-series data are characterized by temperature-dependent elevated background levels for a broad suite of chemicals, underlining the importance of continuous emissions from static indoor sources. Substantial increases in SVOC concentrations were associated with episodic occupant activities, especially cooking and cleaning. The number of occupants within the residence showed little influence on the total airborne SVOC concentration. Enhanced ventilation was effective in reducing SVOCs in indoor air, but only temporarily; SVOCs recovered to previous levels within hours.Entities:
Keywords: cleaning; cooking; emissions; gas/particle partitioning; occupancy; ventilation
Mesh:
Substances:
Year: 2019 PMID: 31004533 DOI: 10.1111/ina.12561
Source DB: PubMed Journal: Indoor Air ISSN: 0905-6947 Impact factor: 5.770