Characterization of Atmospheric Particulate: Relationship between Chemical Composition, Size, and Emission Source

Tullio, Alessandra Di; Reale, Samantha; Ciammola, Margherita; Arrizza, Lorenzo; Picozzi, P.; Angelis, Francesco De

doi:10.1002/cssc.200700056

Cited by 9 publications

(1 citation statement)

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“…Although both resuspended dust and road dust are mixed sources, resuspended dust may be more affected by construction activity because Ca is a marker of construction materials (McGee et al, 2003;Tullio et al, 2008). OC/TC ratios observed for the two geological materials (0.16-0.67) are similar to those obtained in our previous research conducted in Jiaozuo, China .…”

Section: Geological Sourcessupporting

confidence: 83%

Source Characterization and Apportionment of PM10 in Panzhihua, China

Xue

Feng

et al. 2010

Aerosol Air Qual. Res.

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A total of 258 particulate matter (PM 10 ) filter samples and 69 source samples applicable to receptor model source apportionment were collected and chemically analyzed from February to August 2007 in Panzhihua, China. Contributive sources were identified and the chemical profiles were reported for resuspended dust, paved and unpaved road dust, coalfired power plant exhaust, emissions from coking plants and other industrial sources in Panzhihua. All samples were analyzed for 19 elements (Na-Pb), two ions (NO 3 -and SO 4 2-) and organic and total carbon. Elevated abundances of geological components (Al, Si, Ca and Fe) from fugitive dust materials and elements (Ti, Cr, Mn, Cu and Zn) from special industry plants were found in the profiles. The contributions to the ambient PM 10 levels at six sites in three seasons (spring, summer and winter) were estimated using a chemical mass balance receptor model. The concentration of PM 10 was high (150 μg/m 3 ) on winter days and low in summer and spring (133 and 129 μg/m 3 , respectively). Apportionment results indicate that coal combustion ash, iron and steel industry dust, vehicle exhaust and secondary SO 4 2-were major contributors, accounting for about 70% of PM 10 . More attention should be paid to particulate matter emitted by iron and steel manufacturing facilities in view of high contribution and potentially toxic metals.

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Section: Geological Sourcessupporting

confidence: 83%