Abstract
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•Personal exposures to PM10 and PM2.5 were highest in open window bus.•In Bus AC, exposures were highest for the passengers sitting on rear seats.•Among 0.3–22.5 µm particles, PM0.3–0.5 counts were highest in all travel modes.•Respiratory deposition dose (RDD) comprised of ~69% of coarse particles (PM2.5–10).•Car with re-circulation mode of air conditioning was the safest travel mode.
Traffic is the largest contributor (37%) to urban air pollution in India. During commuting, passengers are significantly exposed to pollutants. We carried out a study on a National Highway (NH) in India to measure personal exposure to Particulate Matter (PM) in five travel modes. PM2.5 concentrations showed the following trend: Bus > Car FA (fresh air mode of air condition) > Bus AC > Car > Car RC (re-circulation mode of air condition). Highest and lowest concentrations of PM10 were observed in Bus (134 ± 47 µg m−3) and Car RC (20 ± 5 µg m−3), respectively. The exposures were highest at the rear seats during the Bus AC journeys. In Car FA, the contribution of PM1 to total concentrations was dominant (61%). Travel modes explained highest variabilities in PM10, PM2.5 and PM1 concentrations. In all travel modes, the highest particle counts were observed for PM0.3–0.5. PM>0.5–5.0 counts during Bus journeys were comparatively higher than remaining modes. Deposition doses of passengers were as high as 3.22 µg of PM10 (in Bus), 0.66 µg of PM2.5 (in Bus) and 0.06 µg of PM1 (in Bus AC) during the ~1 h journey. Our study revealed that Car RC is the safest mode of travel, both in terms of personal exposures and PM depositions in respiratory system. The results from this study can be used to target efforts to reduce personal exposure of highway commuters.