Analysis of major pollutants and physico-chemical characteristics of PM2.5 at an urban site in Rome
Autor: | Federica Incoronato, Federica Ietto, Maria Eleonora Soggiu, Carla Fanizza, Barbara De Berardis, Roberto Schiro, Marco Inglessis, Marcello Ferdinandi |
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Rok vydání: | 2018 |
Předmět: |
Pollutant
Environmental Engineering Ozone 010504 meteorology & atmospheric sciences Chemistry 010501 environmental sciences Mineral dust complex mixtures 01 natural sciences Pollution chemistry.chemical_compound Environmental chemistry Environmental Chemistry Mass concentration (chemistry) Particle Nitrogen dioxide Waste Management and Disposal Air quality index 0105 earth and related environmental sciences Carbon monoxide |
Zdroj: | Science of The Total Environment. :1457-1468 |
ISSN: | 0048-9697 |
Popis: | Air quality data from a one year study at an urban roadside location in Rome are reported for major pollutants. Continuous concentration data of carbon monoxide, ozone, nitrogen dioxide, aromatic hydrocarbons and natural radioactivity were measured in the urban air of Rome from January 2016 to January 2017. Moreover, PM2.5 mass concentration and physico-chemical characteristics of single constituent particles are herein reported. Gaseous pollutants, except ozone, and PM2.5 showed maximum concentrations in December due to high atmospheric stability. O3 and NO2 trend analysis showed photochemical smog episodes in June and September. In September, during a photochemical smog episode the aromatic hydrocarbons contribution to ozone formation was experimentally proven. Pearson's coefficient among aromatic hydrocarbons and the ratio Toluene/Benzene (T/B) showed that pollutants were under the influence of vehicular traffic. Physico-chemical characterization of PM2.5 single particles, carried out by field emission scanning electron microscope combined with energy dispersive X-ray spectroscopy, displayed the presence of particle diversity from natural and anthropogenic origin. Four principal components in the PM2.5 were identified: carbonaceous particles, Ca-sulphates, soil dust and building structure particles, metal particles. The principal source of carbonaceous particles in this urban area consists of the motor vehicle exhausts and the heating systems in winter. Traces of S and sometimes S, Na, K were detected on varying percentages of carbonaceous particles. These data suggested that the carbonaceous particles act as vehicles for strong acids, prevalently H2SO4 and alkaline metal sulphates. A Saharan dust contribution to PM2.5 was found in different periods. Metal particles included iron oxide particles, metals oxide particles and Fe-rich metal compounds. The identification of chemical composition of individual particles provide useful information to determine their origin and formation processes. |
Databáze: | OpenAIRE |
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