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Mobile Source CO2 Mitigation through Smart Growth Development and Vehicle Fleet Hybridization

This paper presents the results of a study on the effectiveness of smart growth development patterns and vehicle fleet hybridization in reducing mobile source emissions of carbon dioxide (CO2) across 11 major metropolitan regions of the Midwestern U.S. over a 50-year period. Through the integration...

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Published in:	Environmental science & technology 2009-03, Vol.43 (6), p.1704-1710
Main Authors:	Stone, Brian, Mednick, Adam C, Holloway, Tracey, Spak, Scott N
Format:	Article
Language:	English
Subjects:	Air Pollutants - chemistry Air Pollution - prevention & control Applied sciences Bioelectric Energy Sources Carbon Dioxide - chemistry Conservation of Natural Resources - methods Exact sciences and technology Greenhouse Effect Motor Vehicles - standards Pollution Urban Renewal Vehicle Emissions - prevention & control
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container_title	Environmental science & technology
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creator	Stone, Brian Mednick, Adam C Holloway, Tracey Spak, Scott N
description	This paper presents the results of a study on the effectiveness of smart growth development patterns and vehicle fleet hybridization in reducing mobile source emissions of carbon dioxide (CO2) across 11 major metropolitan regions of the Midwestern U.S. over a 50-year period. Through the integration of a vehicle travel activity modeling framework developed by researchers at the Oak Ridge National Laboratory with small area population projections, we model mobile source emissions of CO2 associated with alternative land development and technology change scenarios between 2000 and 2050. Our findings suggest that under an aggressive smart growth scenario, growth in emissions expected to occur under a business as usual scenario is reduced by 34%, while the full dissemination of hybrid-electric vehicles throughout the light vehicle fleet is found to offset the expected growth in emissions by 97%. Our results further suggest that high levels of urban densification could achieve reductions in 2050 CO2 emissions equivalent to those attainable through the full dissemination of hybrid-electric vehicle technologies.
doi_str_mv	10.1021/es8021655
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subjects	Air Pollutants - chemistry Air Pollution - prevention & control Applied sciences Bioelectric Energy Sources Carbon Dioxide - chemistry Conservation of Natural Resources - methods Exact sciences and technology Greenhouse Effect Motor Vehicles - standards Pollution Urban Renewal Vehicle Emissions - prevention & control
title	Mobile Source CO2 Mitigation through Smart Growth Development and Vehicle Fleet Hybridization
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