Parameterization of meteorological variables in the process of infiltration of outdoor ultrafine particles into a residential building

As part of the Brooklyn Traffic Real-Time Ambient Pollutant Penetration and Environmental Dispersion (B-TRAPPED) study, a field investigation was conducted of the mechanisms involved in infiltration of outdoor particles (0.02 microm to 1 microm) into a near-highway urban residential building. Using...

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Veröffentlicht in:	Journal of environmental monitoring 2009-12, Vol.11 (12), p.2192-2200
Hauptverfasser:	Hahn, Intaek, Brixey, Laurie A, Wiener, Russell W, Henkle, Stacy W
Format:	Artikel
Sprache:	eng
Schlagworte:	Air Pollution, Indoor - analysis Environmental Monitoring - methods Housing Kinetics New York City Particle Size Particulate Matter - analysis Temperature Ventilation Wind
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creator	Hahn, Intaek Brixey, Laurie A Wiener, Russell W Henkle, Stacy W
description	As part of the Brooklyn Traffic Real-Time Ambient Pollutant Penetration and Environmental Dispersion (B-TRAPPED) study, a field investigation was conducted of the mechanisms involved in infiltration of outdoor particles (0.02 microm to 1 microm) into a near-highway urban residential building. Using continuous real-time total number concentration time-series data measured simultaneously at multiple outdoor and indoor locations, the infiltration time was estimated for various indoor sites by using the cross-correlation analysis method. The effects of meteorological variables on infiltration times were also characterized at given locations. In particular, infiltration time was examined as a function of outdoor mean rooftop wind speed. Outdoor and indoor temperature and relative humidity were also investigated in relation to infiltration times. Our results showed that outdoor wind speed was the dominant meteorological parameter affecting the infiltration rate, but no correlation was found with temperature. The outdoor-indoor PM concentration ratio was found to be significantly different for the first and second floors of the test building. Finally, we determined the effectiveness of a protective shelter-in-place area inside the building by calculating infiltration times into the area. We found that the shelter-in-place area offered some protection against the infiltrating particles because of increased attenuation of the outdoor concentration.
doi_str_mv	10.1039/b907140g
format	Article
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source	MEDLINE; Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Air Pollution, Indoor - analysis Environmental Monitoring - methods Housing Kinetics New York City Particle Size Particulate Matter - analysis Temperature Ventilation Wind
title	Parameterization of meteorological variables in the process of infiltration of outdoor ultrafine particles into a residential building
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