Characterisation of fresh particulate vehicular exhausts near a Paris high flow road

Simultaneous continuous measurements of PM2.5, PM10, black carbon mass (BCae), Black smoke (BS) and particle number density (N) were conducted in the close vicinity of a high traffic road around Paris during a three-month period beginning in August 1997. In parallel some aerosol collection was performed on filters in order to assess the black carbon (BC), organic carbon (OC) and water soluble organic fractions (WSOC) of the freshly emitted traffic aerosols. The high hourly concentrations of PM2.5 (39 +/- 20 mug m(-3)), BCae (14 +/- 7 mug m(-3)), and N (220,000 +/- 115,000 cm(-3)), were found to be well correlated with each other. On average PM2.5 represented 66 +/- 13% of PM10 and appears to be composed primarily of BC (43 +/- 20%). On the contrary no correlation was found between PM2.5 and the coarse (PM10-PM2.5) mass fractions which was attributed to resuspension processes by vehicles. Black carbon mass concentrations obtained from both filter analyses (BC) and Aethalometre data (BCae) show a good agreement suggesting that the Aethalometre calibration based on a black carbon specific attenuation coefficient (sigma) of 19 m(2) g(-1) is well adapted to nearby roadside measurements. Daily BC (used as a surrogate for fine particles) concentrations and wind speed were found to be anti-correlated. Average daily variations of BC could be related to traffic intensity and regime as well as to the boundary layer height. As expected for freshly emitted traffic aerosols, filter analyses indicated a high BC/TC ratio (29 +/- 5%) and a low mean WSOC/OC ratio (12.5 +/- 5%) for the bulk aerosol. For these two ratios no day/night differences were observed, the sampling station being probably too close to traffic to evidence photochemical modification of the aerosol phase. Finally, a linear relationship was found between BC and BS hourly concentrations (BC = 0.10 x BS + 1.18; r(2) = 0.93) which offers interesting perspectives to retrieve BC concentrations from existing BS archives. (C) 2000 Elsevier Science Ltd. All rights reserved.