The chemical and morphological analysis of urban dust


The chemical and morphological analysis of urban dust

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Title: The chemical and morphological analysis of urban dust
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Article_Title: The chemical and morphological analysis of urban dust
Authors: Edina Baranyai, Imre Tóth, Dávid Nagy, József Posta
Affiliation: University of Debrecen, Department of Inorganic and Analytical Chemistry, Hungary
Abstract: Dust samples needed for the research was put at our disposal in great amount by the DKCE power station of Debrecen. In the station dust filtration of air takes place in more steps, which provides us strained of on the coarse filters in the range of 2000 μm to 10 μm, while between 10 μm to 1 μm on the fine filters. Those particles that manage to get across the filter system can be collected by the off-line washing of the turbine area. This fraction will contain fragments which are particular concern to human health as they can not only get into the lung but can attach to the alveoli. Dust sample collected in the city centre, nearby a railway station and a congested vehicular bridge contains all the contaminants that are imposed on the inhabitants of a typical big city. It is established from the size range distribution of samples collected from the coarse filters that almost 90% of the particles are under 63 μm. We determined the chemical composition of dust by using highly sensitive analytical methods after setting aside the most appropriate sampling and preparatory processes. By the side of the inorganic components, dust samples contain pollen and smut particles in higher amount, as well as spherules.
Keywords: environment, urban dust, air pollutants
References: De Miquel, E. Lamas, J.F. Chacón, E. Berg, T. Larssen, S. Royset, O. Vadset, M., Origin and patterns of distribution of trace element in street dust: unleaded petrol and urban lead. Atmospheric Environment, 31. 2733-2740, 2007.
Dockery, D.W., Pope, C.A., Xu, X. Spengler, J.D., Ware, J.H., Fay, M.E., Ferris, B.G., Spizer, F.E., An association between air pollution and mortality in six US cities, New England Journal of Medicine, 329. 1735–1759, 1993.
Evagelopoulos, V. Zoras, S., Triantafyllou, A.G., Albanis, T.A., PM10-PM2.5 time series and fractal analysis Global Nest Journal, Vol 8., No 3., 234-240, 2006.
Ferguson, J.E., Kim, N. Trace elements in street and house dusts source and speciation. Science of Total Environment, 100. 125–150, 1991.
Pope, C.A., Respiratory hospital admissions associated with PM10 pollution in Utah, Salt Lake, and Cache Valleys. Arch. Environ. Health, 46. 90–97, 1991.
Pope, C.A., Burnett, R.T., Thun, M.J., Calle, E.E., Krewski, D., Ito, K., Thurston, G.D, Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution. Jama, 287. 1132-41, 2002.
Radojevic, M., Bashkin, V.N.,Practical Environmental Analysis. Cambridge, The Royal Society of Chemistry, 74-80, 1999.
Rudnai P., A városi levegőszennyezettség hatása az egészségre, különös tekintettel az allergiás légzőszervi betegségekre. Tanulmány, Országos Közegészségügyi Központ, Országos Környezetegészségügyi Intézet. www.oki.antsz.hu, 2006.
Schwartz, J., Air pollution and hospital admissions for respiratory disease. Epidermiology, 1. 20–28, 1996.
Schwartz, J., Low-level lead exposure and children’s IQ, a meta-analysis and search for a threshold. Environ. Res., 65. 42-55, 1994.
Read_full_article: pdf/21-2011/21-1-2011/SU21-1-2011Baranyai.pdf
Correspondence: Posta J., University of Debrecen, Faculty of Technology and Natural Sciences, Department of Inorganic and Analytical Chemistry, Egyetem tér 1., 4032, Debrecen, Hungary, Tel. (+ 36 52) 512-900/22487, Fax. (+ 36 52) 489-667, email: postaj@tigris.unideb.hu

Read full article
Article Title: The chemical and morphological analysis of urban dust
Authors: Edina Baranyai, Imre Tóth, Dávid Nagy, József Posta
Affiliation: University of Debrecen, Department of Inorganic and Analytical Chemistry, Hungary
Abstract: Dust samples needed for the research was put at our disposal in great amount by the DKCE power station of Debrecen. In the station dust filtration of air takes place in more steps, which provides us strained of on the coarse filters in the range of 2000 μm to 10 μm, while between 10 μm to 1 μm on the fine filters. Those particles that manage to get across the filter system can be collected by the off-line washing of the turbine area. This fraction will contain fragments which are particular concern to human health as they can not only get into the lung but can attach to the alveoli. Dust sample collected in the city centre, nearby a railway station and a congested vehicular bridge contains all the contaminants that are imposed on the inhabitants of a typical big city. It is established from the size range distribution of samples collected from the coarse filters that almost 90% of the particles are under 63 μm. We determined the chemical composition of dust by using highly sensitive analytical methods after setting aside the most appropriate sampling and preparatory processes. By the side of the inorganic components, dust samples contain pollen and smut particles in higher amount, as well as spherules.
Keywords: environment, urban dust, air pollutants
References: De Miquel, E. Lamas, J.F. Chacón, E. Berg, T. Larssen, S. Royset, O. Vadset, M., Origin and patterns of distribution of trace element in street dust: unleaded petrol and urban lead. Atmospheric Environment, 31. 2733-2740, 2007.
Dockery, D.W., Pope, C.A., Xu, X. Spengler, J.D., Ware, J.H., Fay, M.E., Ferris, B.G., Spizer, F.E., An association between air pollution and mortality in six US cities, New England Journal of Medicine, 329. 1735–1759, 1993.
Evagelopoulos, V. Zoras, S., Triantafyllou, A.G., Albanis, T.A., PM10-PM2.5 time series and fractal analysis Global Nest Journal, Vol 8., No 3., 234-240, 2006.
Ferguson, J.E., Kim, N. Trace elements in street and house dusts source and speciation. Science of Total Environment, 100. 125–150, 1991.
Pope, C.A., Respiratory hospital admissions associated with PM10 pollution in Utah, Salt Lake, and Cache Valleys. Arch. Environ. Health, 46. 90–97, 1991.
Pope, C.A., Burnett, R.T., Thun, M.J., Calle, E.E., Krewski, D., Ito, K., Thurston, G.D, Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution. Jama, 287. 1132-41, 2002.
Radojevic, M., Bashkin, V.N.,Practical Environmental Analysis. Cambridge, The Royal Society of Chemistry, 74-80, 1999.
Rudnai P., A városi levegőszennyezettség hatása az egészségre, különös tekintettel az allergiás légzőszervi betegségekre. Tanulmány, Országos Közegészségügyi Központ, Országos Környezetegészségügyi Intézet. www.oki.antsz.hu, 2006.
Schwartz, J., Air pollution and hospital admissions for respiratory disease. Epidermiology, 1. 20–28, 1996.
Schwartz, J., Low-level lead exposure and children’s IQ, a meta-analysis and search for a threshold. Environ. Res., 65. 42-55, 1994.
*Correspondence: Posta J., University of Debrecen, Faculty of Technology and Natural Sciences, Department of Inorganic and Analytical Chemistry, Egyetem tér 1., 4032, Debrecen, Hungary, Tel. (+ 36 52) 512-900/22487, Fax. (+ 36 52) 489-667, email: postaj@tigris.unideb.hu