Methods of Characterizing the Distribution of Exhaust Emissions from Light-Duty, Gasoline-Powered Motor Vehicles in the U.S. Fleet
| Autor: | Robert Santos, Carl Scarbro, Richard Baldauf, Eugene Tierney, William Crews, Eric M. Fujita, Carl R. Fulper, Sandeep Kishan, Peter A. Gabele, Jim Warila, Michael Sabisch, Bruce Cantrell, Richard Snow |
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| Rok vydání: | 2010 |
| Předmět: |
Truck
Chemistry Temperature Environmental engineering Air pollution Air Pollutants Occupational Management Monitoring Policy and Law Particulates Elements Combustion medicine.disease_cause United States Aerosol Diesel fuel medicine Particulate Matter Seasons Organic Chemicals Emission inventory Gasoline Automobiles Waste Management and Disposal Environmental Monitoring Vehicle Emissions |
| Zdroj: | Journal of the Air & Waste Management Association. 60:1376-1387 |
| ISSN: | 2162-2906 1096-2247 |
| DOI: | 10.3155/1047-3289.60.11.1376 |
| Popis: | Mobile sources significantly contribute to ambient concentrations of airborne particulate matter (PM). Source apportionment studies for PM10 (PMor = 10 microm in aerodynamic diameter) and PM2.5 (PMor = 2.5 microm in aerodynamic diameter) indicate that mobile sources can be responsible for over half of the ambient PM measured in an urban area. Recent source apportionment studies attempted to differentiate between contributions from gasoline and diesel motor vehicle combustion. Several source apportionment studies conducted in the United States suggested that gasoline combustion from mobile sources contributed more to ambient PM than diesel combustion. However, existing emission inventories for the United States indicated that diesels contribute more than gasoline vehicles to ambient PM concentrations. A comprehensive testing program was initiated in the Kansas City metropolitan area to measure PM emissions in the light-duty, gasoline-powered, on-road mobile source fleet to provide data for PM inventory and emissions modeling. The vehicle recruitment design produced a sample that could represent the regional fleet, and by extension, the national fleet. All vehicles were recruited from a stratified sample on the basis of vehicle class (car, truck) and model-year group. The pool of available vehicles was drawn primarily from a sample of vehicle owners designed to represent the selected demographic and geographic characteristics of the Kansas City population. Emissions testing utilized a portable, light-duty chassis dynamometer with vehicles tested using the LA-92 driving cycle, on-board emissions measurement systems, and remote sensing devices. Particulate mass emissions were the focus of the study, with continuous and integrated samples collected. In addition, sample analyses included criteria gases (carbon monoxide, carbon dioxide, nitric oxide/nitrogen dioxide, hydrocarbons), air toxics (speciated volatile organic compounds), and PM constituents (elemental/organic carbon, metals, semi-volatile organic compounds). Results indicated that PM emissions from the in-use fleet varied by up to 3 orders of magnitude, with emissions generally increasing for older model-year vehicles. The study also identified a strong influence of ambient temperature on vehicle PM mass emissions, with rates increasing with decreasing temperatures. |
| Databáze: | OpenAIRE |
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