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Particulate matter and black smoke concentration levels in central Athens, Greece [An article from: Environment International]
Book Details
PublisherElsevier
ISBN / ASINB000RR306C
ISBN-13978B000RR3065
AvailabilityAvailable for download now
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Environment International, published by Elsevier in 2005. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
This study presents the statistical analysis of PM"1"0 and PM"2"."5 concentrations (measured at a central site, in the Athens area), along with black smoke (BS) data, for a 2-year period. The biennial average concentrations of PM"1"0 and PM"2"."5 were 75 and 40 @mg m^-^3. The respective average concentration of BS, as estimated by the OECD method, was 108 @mg m^-^3. Severe exceedances of the PM"1"0 air quality standards were recorded. The seasonal variation of PM"1"0 and BS was less pronounced than the variation of PM"2"."5, which concentration was elevated by 14.2% during the cold period. Concentrations of all three pollutants were significantly lower during weekends; however, PM"2"."5 and BS displayed a more uniform weekly distribution pattern. PM"1"0 particles were found to be almost equally comprised by PM"2"."5 and PM"1"0"-"2"."5 particles (PM"2"."5/PM"1"0 ratio=0.53+/-0.09 @mg/m^3). The average PM"1"0/BS value was found lower than unity revealing the inappropriateness of the used reflectance conversion method, for the estimation of mass-equivalent BS concentrations, in the study area, where diesel-powered vehicles mainly control emissions of light-absorbing substances. Important reductions in concentrations were observed during days when drivers of diesel-powered taxies and transportation buses went on strike (reaching 40% for BS). Calm wind conditions were found to have an incremental effect on particle concentrations and were also associated with the appearance of persistent episodic events. Increased PM levels were also observed during southern-southwestern wind flows while significantly lower-than-average concentrations were measured during precipitation events. Separate regression analyses were performed for PM"1"0, PM"2"."5 with BS and NO"x as independent variables, in an attempt to estimate the relative contribution of specific source types (diesel-powered vehicles) to measured particle levels. The contribution of the diesel-exhaust component to PM"1"0 mass was estimated at 49.9%, while the corresponding contributions to PM"2"."5 mass concentrations was 53.8%. These results may have important implications with the oncoming decision of national authorities to allow the purchase of diesel-powered private cars to the residents of the Greater Athens Area, which was forbidden up to this day.
Description:
This study presents the statistical analysis of PM"1"0 and PM"2"."5 concentrations (measured at a central site, in the Athens area), along with black smoke (BS) data, for a 2-year period. The biennial average concentrations of PM"1"0 and PM"2"."5 were 75 and 40 @mg m^-^3. The respective average concentration of BS, as estimated by the OECD method, was 108 @mg m^-^3. Severe exceedances of the PM"1"0 air quality standards were recorded. The seasonal variation of PM"1"0 and BS was less pronounced than the variation of PM"2"."5, which concentration was elevated by 14.2% during the cold period. Concentrations of all three pollutants were significantly lower during weekends; however, PM"2"."5 and BS displayed a more uniform weekly distribution pattern. PM"1"0 particles were found to be almost equally comprised by PM"2"."5 and PM"1"0"-"2"."5 particles (PM"2"."5/PM"1"0 ratio=0.53+/-0.09 @mg/m^3). The average PM"1"0/BS value was found lower than unity revealing the inappropriateness of the used reflectance conversion method, for the estimation of mass-equivalent BS concentrations, in the study area, where diesel-powered vehicles mainly control emissions of light-absorbing substances. Important reductions in concentrations were observed during days when drivers of diesel-powered taxies and transportation buses went on strike (reaching 40% for BS). Calm wind conditions were found to have an incremental effect on particle concentrations and were also associated with the appearance of persistent episodic events. Increased PM levels were also observed during southern-southwestern wind flows while significantly lower-than-average concentrations were measured during precipitation events. Separate regression analyses were performed for PM"1"0, PM"2"."5 with BS and NO"x as independent variables, in an attempt to estimate the relative contribution of specific source types (diesel-powered vehicles) to measured particle levels. The contribution of the diesel-exhaust component to PM"1"0 mass was estimated at 49.9%, while the corresponding contributions to PM"2"."5 mass concentrations was 53.8%. These results may have important implications with the oncoming decision of national authorities to allow the purchase of diesel-powered private cars to the residents of the Greater Athens Area, which was forbidden up to this day.
