Analysis of real-time variables affecting children's exposure to diesel-related pollutants during school bus commutes in Los Angeles

Abstract Variables affecting children's exposure during school bus commutes were investigated using real-time measurements of black carbon (BC), particle-bound polycyclic aromatic hydrocarbons (PB-PAH) and nitrogen dioxide (NO2) inside 3 conventional diesel school buses, a particle trap-outfitted (TO) diesel school bus and a compressed natural gas (CNG) school bus, while traveling along an urban Los Angeles Unified School District bus route. A video camera was mounted at the front of each bus to record roadway conditions ahead of the bus during each commute. The videotapes from 12 commutes, in conjunction with pollutant concentration time series, were used to determine the influence of variables such as vehicles being followed, bus type and roadway type on pollutant concentrations inside the bus. For all buses tested, the highest concentrations of BC, PB-PAH and NO2 were observed when following a diesel school bus, especially if that bus was emitting visible exhaust. This result was important because other diesel school buses were responsible for the majority of the diesel vehicle encounters, primarily due to caravanning with each other when leaving a school at the same time. Compared with following a gasoline vehicle or no target, following a smoky diesel school bus yielded BC and PB-PAH concentrations inside the cabin 8 and 11 times higher, respectively, with windows open, and ∼1.8 times higher for both pollutants with windows closed. When other diesel vehicles were not present, pollutant concentrations were highest inside the conventional diesel buses and lowest inside the CNG bus, while the TO diesel bus exhibited intermediate concentrations. Differences in pollutant concentrations between buses were most pronounced with the bus windows closed, and were attributed to a combination of higher concentrations in the exhaust and higher exhaust gas intrusion rates for the conventional diesel buses. Conventional diesel school buses can have a double exposure impact on commuting children: first, exposures to the exhaust from other nearby diesel school buses and, second, exposure to the bus's own exhaust through “self-pollution”.

[1]  Eduardo Behrentz,et al.  Measuring self-pollution in school buses using a tracer gas technique , 2004 .

[2]  I L Gee,et al.  Commuter exposure to respirable particles inside buses and by bicycle. , 1999, The Science of the total environment.

[3]  Scott Fruin,et al.  Black carbon concentrations in California vehicles and estimation of in-vehicle diesel exhaust particulate matter exposures , 2004 .

[4]  Mark J. Nieuwenhuijsen,et al.  Fine particle (PM2.5) personal exposure levels in transport microenvironments, London, UK. , 2001, The Science of the total environment.

[5]  R. Colvile,et al.  Fine particle (PM2.5) personal exposure levels in transport microenvironments, London, UK. , 2001, The Science of the total environment.

[6]  P J Lioy,et al.  Exposure to volatile organic compounds in the passenger compartment of automobiles during periods of normal and malfunctioning operation. , 1995, Journal of exposure analysis and environmental epidemiology.

[7]  James A. Wiley,et al.  Study of children's activity patterns , 1991 .

[8]  Andy Chan,et al.  Indoor–outdoor air quality relationships in vehicle: effect of driving environment and ventilation modes , 2003 .

[9]  SARI ALM,et al.  Urban commuter exposure to particle matter and carbon monoxide inside an automobile , 1999, Journal of Exposure Analysis and Environmental Epidemiology.

[10]  Eduardo Behrentz,et al.  Characterizing the range of children's air pollutant exposure during school bus commutes , 2005, Journal of Exposure Analysis and Environmental Epidemiology.

[11]  Gina M. Solomon,et al.  No Breathing in the Aisles: Diesel Exhaust inside School Buses. , 2001 .

[12]  Charles Rodes,et al.  Measuring concentrations of selected air pollutants inside California vehicles : final report , 1998 .

[13]  G Praml,et al.  Dust exposure in Munich public transportation: a comprehensive 4-year survey in buses and trams , 2000, International archives of occupational and environmental health.

[14]  Kun-Ho Park,et al.  Commuter exposure to volatile organic compounds under different driving conditions , 1999 .

[15]  P J Lioy,et al.  Exposure to emissions from gasoline within automobile cabins. , 1992, Journal of exposure analysis and environmental epidemiology.

[16]  Lisa D. Sabin,et al.  Relative Importance of School Bus-Related Microenvironments to Children’s Pollutant Exposure , 2005, Journal of the Air & Waste Management Association.