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Abstract
The concentration of polycyclic aromatic hydrocarbons (PAHs) associated with different particulate sizes of suspended particulate matter (SPM) was studied in Hisar city with the help of a MOUDI-NR 10-stage (18 μm to 0.056 μm) cascade impactor. The vehicular-cum-commercial, vehicular, commercial, and institutional/residential locations had the average concentration (ng/g) of 11.39, 10.39/10.22 (NH 10/Bus Terminus), 8.89, and 8.93, respectively. Vehicular emission was the chief source and diesel-vehicle dominated areas represented higher concentration of PAHs associated with coarse fraction. An increase in PAH associated with fine fraction was observed with an increase in vehicular density. Maximum average concentration (11.26 ng/g) was found to be associated in particle range of <0.56–0.32 μm. It was followed by particle range (μm) of <18–10, <1.8–1, <0.18–0.1, <1–0.56, <5.6–3.2, <0.32–0.18, <3.2–1.8 <0.1–0.056, and <10–5.6 with average values (ng/g) of 10.75, 10.35, 10.22, 10.16, 10.06, 9.50, 9.18, 9.18, and 9.00, respectively. Among the PAHs studied, maximum levels were observed for pyrene, followed by Benzo(b)fluoranthene, Benzo(e)pyrene, benzo(k)fluoranthene, fluoranthene, phenanthrene, benzo(ghi)perylene, anthracene, and naphthalene. With respect to the percent fraction of PAHs studied, the vehicular-cum-commercial area represented maximum fraction (22%) followed by vehicular area (21% each for NH-10 and Bus Terminus), institutional/residential area (18%), and commercial area (18%). The isomeric ratios revealed that most of the PAHs originate from combustion of diesel, gasoline, used engine oil, and coal/wood. The association of PAHs with fine fraction of health concern since it can penetrate and get accumulated in deep respiratory regions.
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