Indoor exchange rates and penetration from outdoors in an instrumented terraced house (townhouse) using gas tracers: implications for particles and gases indoors

James C Matthews*, M. A. H. Khan, Matthew D Wright, Prem Perumal, Carl Percival, Ian D Bull, Ian J Craddock, Dudley E Shallcross

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

Abstract

Air exchange rate is a key determinant of indoor air quality which is highly variable within the rooms of a naturally ventilated terraced house (townhouse). Window-opening can increases the air exchange rate, but internal door-opening between rooms inside decreases the rate. Inert perfluorocarbon gas-phase tracers demonstrated flow within the house and the penetration of tracers released outside into the house showed a strong dependence on wind speed and wind direction. Between experiments it was found that the tracer could be detected within certain parts of the house weeks after the initial release with implications for pollutants and their impact in the indoor environment. A limited number of reactive tracer experiments suggested an upper limit for indoor [OH] ~ 1 × 105 molecule cm-3 with up to 0.5 ppt of [NO3] estimated, leading to an estimated indoors lifetime for d5 isoprene of many hours. Ultrafine particulate matter generated in the kitchen travels throughout the house and the persistence of elevated aerosol concentrations is seen even in well-ventilated rooms, with implications for particle exposure in the evening and during the night.
Original languageEnglish
Article number9204433
JournalIndoor air
Volume2024
Issue number1
DOIs
Publication statusPublished - 21 Oct 2024

Bibliographical note

Publisher Copyright:
© 2024 James C. Matthews et al.

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