Personal exposure to UFP in different micro-environments and time of day

Particulate matter exposure may cause adverse health effects. Although ultrafine particulate matter (UFP) is hypothesised to be particularly health relevant, the number of studies into personal UFP exposure is limited. To increase insight where and when most UFP exposure occurs, in terms of exposure...

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Bibliographic Details
Published in:Building and environment 2017-09, Vol.122, p.237-246
Main Authors: de Kluizenaar, Y., Kuijpers, E., Eekhout, I., Voogt, M., Vermeulen, R.C.H., Hoek, G., Sterkenburg, R.P., Pierik, F.H., Duyzer, J.H., Meijer, E.W., Pronk, A.
Format: Article
Language:English
Subjects:
Air pollution
GPS
Micro environments
Personal exposure monitoring
Time activity patterns
Ultrafine particulate matter
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Summary:Particulate matter exposure may cause adverse health effects. Although ultrafine particulate matter (UFP) is hypothesised to be particularly health relevant, the number of studies into personal UFP exposure is limited. To increase insight where and when most UFP exposure occurs, in terms of exposure levels and peaks in microenvironments, time of day and activities, to support development of abatement strategies to reduce exposure. UFP exposure and GPS tracks were recorded continuously for 5 days in 12 healthy volunteers. GPS data was processed to assign context information, and linked to UFP data. Participants spent most time indoors (>90%), mainly at home (approx. 80%). Mean particle number concentration (particles/cm3) was highest in motorized transport (20.5 × 103), followed by other indoor environments (16.5 × 103), and lower at home (11.2 × 103) and walking outdoors (9.0 × 103). Due to the large proportion of time spent indoors, exposure indoors contributed most to total exposure (nearly 90%). Exposure during motorized transport showed a speed dependency, most likely linked to exposure on larger busier roads. Using a 95th percentile cut-off for concentration elevations lasting at least 5 min for peak-detection, 98 peaks were identified, mainly during daytime. These contributed substantially to total exposure (25%) while accounting for only 3.4% of total time. Of this peak contribution 88% occurred indoors (mainly at home) and 12% outdoors. UFP exposure shows clear differences between microenvironments. Peaks contribute substantially to total exposure. Measures to prevent peak exposures could contribute to substantial exposure reduction. •Personal ultrafine particulate matter (UFP) exposure concentrations differed by microenvironment.•Largest mean exposure concentrations were found for time spent in motorized traffic.•Indoor exposure was the main contributor to total personal exposure, due to % of time spent indoors.•Exposure during peaks contributed substantially to total exposure.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2017.06.022