A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Chemical characterization of ambient particulate matter near the World Trade Center: Source apportionment using organic and inorganic source markers
AbstractConcentrations of alkanes (C20–C35), 14 polycyclic aromatic hydrocarbons (PAHs) and PAH ketones, and three hopanes are reported from four locations near the World Trade Center (WTC) (three of the locations within 300m of the debris pile). The highest concentrations of individual PAHs across the four locations were for fluoranthene (10.3ng/m3 at site W), pyrene (8.7ng/m3 at site W), and chrysene (6.2ng/m3 at site W). The EPA Unmix Version 6.0 receptor model was used to estimate the impact of WTC fires and recovery efforts on ambient PM2.5 concentrations. Five factors were identified: open burning of building debris, smoldering fires from building debris, a mixed recovery source, a sulfate/debris removal source, and motor vehicle exhaust.
Chemical characterization of ambient particulate matter near the World Trade Center: Source apportionment using organic and inorganic source markers
AbstractConcentrations of alkanes (C20–C35), 14 polycyclic aromatic hydrocarbons (PAHs) and PAH ketones, and three hopanes are reported from four locations near the World Trade Center (WTC) (three of the locations within 300m of the debris pile). The highest concentrations of individual PAHs across the four locations were for fluoranthene (10.3ng/m3 at site W), pyrene (8.7ng/m3 at site W), and chrysene (6.2ng/m3 at site W). The EPA Unmix Version 6.0 receptor model was used to estimate the impact of WTC fires and recovery efforts on ambient PM2.5 concentrations. Five factors were identified: open burning of building debris, smoldering fires from building debris, a mixed recovery source, a sulfate/debris removal source, and motor vehicle exhaust.
Chemical characterization of ambient particulate matter near the World Trade Center: Source apportionment using organic and inorganic source markers
Olson, David A. (author) / Norris, Gary A. (author)
Atmospheric Environment ; 42 ; 7310-7315
2008-07-03
6 pages
Article (Journal)
Electronic Resource
English