Source Apportionment of the Anthropogenic Increment to Ozone, Formaldehyde, and Nitrogen Dioxide by the Path-Integral Method in a 3D Model

The anthropogenic increment of a species is the difference in concentration between a base-case simulation with all emissions included and a background simulation without the anthropogenic emissions. The Path-Integral Method (PIM) is a new technique that can determine the contributions of individual...

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Bibliographic Details
Published in:Environmental science & technology 2015-06, Vol.49 (11), p.6751-6759
Main Authors: Dunker, Alan M., Koo, Bonyoung, Yarwood, Greg
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Aldehydes
Emission standards
Emissions
Formaldehyde - analysis
Geography
Human Activities
Humans
Models, Theoretical
Nitrates - analysis
Nitrites - analysis
Nitrogen dioxide
Nitrogen Dioxide - analysis
Outdoor air quality
Ozone
Ozone - analysis
Simulation
United States
Volatile Organic Compounds - analysis
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Summary:The anthropogenic increment of a species is the difference in concentration between a base-case simulation with all emissions included and a background simulation without the anthropogenic emissions. The Path-Integral Method (PIM) is a new technique that can determine the contributions of individual anthropogenic sources to this increment. The PIM was applied to a simulation of O3 formation in July 2030 in the U.S., using the Comprehensive Air Quality Model with Extensions and assuming advanced controls on light-duty vehicles (LDVs) and other sources. The PIM determines the source contributions by integrating first-order sensitivity coefficients over a range of emissions, a path, from the background case to the base case. There are many potential paths, with each representing a specific emission-control strategy leading to zero anthropogenic emissions, i.e., controlling all sources together versus controlling some source(s) preferentially are different paths. Three paths were considered, and the O3, formaldehyde, and NO2 anthropogenic increments were apportioned to five source categories. At rural and urban sites in the eastern U.S. and for all three paths, point sources typically have the largest contribution to the O3 and NO2 anthropogenic increments, and either LDVs or area sources, the smallest. Results for formaldehyde are more complex.
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.5b00467