Mihriban Civan scite author profile

h i g h l i g h t sVOCs, NO 2 , SO 2 and O 3 were measured around a densely populated industrial zone. Five separate weekly passive sampling campaigns were conducted at 55 locations. The spatial distribution of pollutants extracted in PMF were used to realize sources. Six factors were identified using a large number of chemical species available. The cancer risk due to benzene inhalation was calculated using Monte Carlo simulation. a r t i c l e i n f o a b s t r a c t Ambient concentrations of volatile organic compounds (VOCs), nitrogen dioxide (NO 2 ), sulphur dioxide (SO 2 ) and ground-level ozone (O 3 ) were measured at 55 locations around a densely populated industrial zone, hosting a petrochemical complex (Petkim), a petroleum refinery (Tupras), ship-dismantling facilities, several iron and steel plants, and a gas-fired power plant. Five passive sampling campaigns were performed covering summer and winter seasons of 2005 and 2007. Elevated concentrations of VOCs, NO 2 and SO 2 around the refinery, petrochemical complex and roads indicated that industrial activities and vehicular emissions are the main sources of these pollutants in the region. Ozone concentrations were low at the industrial zone and settlement areas, but high in rural stations downwind from these sources due to NO distillation. The United States Environmental Protection Agency's positive matrix factorization receptor model (EPA PMF) was employed to apportion ambient concentrations of VOCs into six factors, which were associated with emissions sources. Traffic was found to be highest contributor to measured P VOCs concentrations, followed by the Petkim and Tupras. Median cancer risk due to benzene inhalation calculated using a Monte Carlo simulation was approximately 4 per-one-million population, which exceeded the U.S. EPA benchmark of 1 per one million. Petkim, Tupras and traffic emissions were the major sources of cancer risk due to benzene inhalation in the Aliaga airshed. Relative contributions of these two source groups changes significantly from one location to another, demonstrating the limitation of determining source contributions and calculating health risk using data from one or two permanent stations in an industrial area.

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Risk assessment of PBDEs and PAHs in house dust in Kocaeli, Turkey: levels and sources

Civan

Kara

2016

Environ Sci Pollut Res

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Indoor dust samples were collected from 40 homes in Kocaeli, Turkey and were analyzed simultaneously for 14 polybrominated diphenyl ethers (PBDEs) and 16 poly aromatic hydrocarbons (PAHs) isomers. The total concentrations of PBDEs (ΣPBDEs) ranged from 29.32 to 4790 ng g, with a median of 316.1 ng g, while the total indoor dust concentrations of 16 PAHs (ΣPAHs) extending over three to four orders of magnitude ranged from 85.91 to 40,359 ng g with a median value of 2489 ng g. Although deca-PBDE products (BDE-209) were the principal source of PBDEs contamination in the homes (median, 138.3 ng g), the correlation in the homes was indicative of similar sources for both the commercial penta and deca-PBDE formulas. The PAHs diagnostic ratios indicated that the main sources of PAHs measured in the indoor samples could be coal/biomass combustion, smoking, and cooking emissions. For children and adults, the contributions to ∑PBDEs exposure were approximately 93 and 25 % for the ingestion of indoor dust, and 7 and 75 % for dermal contact. Exposure to ∑PAHs through dermal contact was the dominant route for both children (90.6 %) and adults (99.7 %). For both groups, exposure by way of inhalation of indoor dust contaminated with PBDEs and PAHs was negligible. The hazard index (HI) values for BDE-47, BDE-99, BDE-153, and BDE-209 were lower than the safe limit of 1, and this result suggested that none of the population groups would be likely to experience potential health risk due to exposure to PBDEs from indoor dust in the study area. Considering only ingestion + dermal contact, the carcinogenic risk levels of both B2 PAHs and BDE-209 for adults were 6.2 × 10 in the US EPA safe limit range while those for children were 5.6 × 10 and slightly higher than the US EPA safe limit range (1 × 10 and 1 × 10). Certain precautions should be considered for children.

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Mihriban Civan

Volatile organic compounds in suburban Ankara atmosphere, Turkey: Sources and variability

Source Apportionment of Ambient Volatile Organic Compounds in Bursa, a Heavily Industrialized City in Turkey

Temporal variations of VOC concentrations in Bursa atmosphere

Spatial and temporal variations in atmospheric VOCs, NO 2 , SO 2 , and O 3 concentrations at a heavily industrialized region in Western Turkey, and assessment of the carcinogenic risk levels of benzene

Risk assessment of PBDEs and PAHs in house dust in Kocaeli, Turkey: levels and sources

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