posted on 2020-06-18, 13:07authored bySameer Patel, Sumit Sankhyan, Erin K. Boedicker, Peter F. DeCarlo, Delphine K. Farmer, Allen H. Goldstein, Erin F. Katz, William W Nazaroff, Yilin Tian, Joonas Vanhanen, Marina E. Vance
It
is important to improve our understanding of exposure to particulate
matter (PM) in residences because of associated health risks. The
HOMEChem campaign was conducted to investigate indoor chemistry in
a manufactured test house during prescribed everyday activities, such
as cooking, cleaning, and opening doors and windows. This paper focuses
on measured size distributions of PM (0.001–20 μm), along
with estimated exposures and respiratory-tract deposition. Number
concentrations were highest for sub-10 nm particles during cooking
using a propane-fueled stovetop. During some cooking activities, calculated
PM2.5 mass concentrations (assuming a density of 1 g cm–3) exceeded 250 μg m–3, and
exposure during the postcooking decay phase exceeded that of the cooking
period itself. The modeled PM respiratory deposition for an adult
residing in the test house kitchen for 12 h varied from 7 μg
on a day with no indoor activities to 68 μg during a simulated
day (including breakfast, lunch, and dinner preparation interspersed
by cleaning activities) and rose to 149 μg during a simulated
Thanksgiving day.