US EPA

12232 

Journal Article 

Characterization of polycyclic aromatic hydrocarbons in motor vehicle fuels and exhaust emissions 

Marr, LC; Kirchstetter, TW; Harley, RA; Miguel, AH; Hering, SV; Hammond, SK 

1999 

1 

Environmental Science & Technology
ISSN: 0013-936X
EISSN: 1520-5851 

33 

18 

3091-3099 

English 

10.1021/es981227l 

WOS:000082613300007 

Motor vehicles are a significant source of polycyclic aromatic hydrocarbon(PAH) emissions. Improved understanding of the relationship between fuel composition and PAH emissions is needed to determine whether fuel reformulation is a viable approach for reducing PAH emissions. PAH concentrations were quantified in gasoline and diesel fuel samples collected in summer 1997 in northern California. Naphthalene was the predominant PAH in both fuels, with concentrations of up to 2600 mg L-1 in gasoline and 1600 mg L-1 in diesel fuel. Particle-phase PAH size distributions and exhaust emission factors were measured in two bores of a roadway tunnel. Emission factors were determined separately for light-duty vehicles and for heavy-duty diesel trucks, based on measurements of PAHs, CO, and CO2. Particle-phase emission factors, expressed per unit mass of fuel burned, ranged up to 21 mug kg-1 for benzo-(ghi)perylene for light-duty vehicles and up to apprx 1000 mug kg-1 for pyrene for heavy-duty diesel vehicles. Light-duty vehicles were found to be a significant source of heavier (four- and five-ring) PAHs, whereas heavy-duty diesel engines were the dominant source of three-ring PAHs, such as fluoranthene and pyrene. While no correlation between heavy-duty diesel truck PAH emission factors and PAH concentrations in diesel fuel was found, light-duty vehicle PAH emission factors were found to be correlated with PAH concentrations in gasoline, suggesting that gasoline reformulation may be effective in reducing PAH emissions from motor vehicles.