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Fractionation of Selected Heavy Metals (Zn, Ni, Cu) in Municipal Sewage Sludges from Podlasie Province

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EN
Abstrakty
EN
In the samples of fresh dehydrated sewage sludges from municipal treatment plants in Grajewo, Bielsk Podlaski, Sokółka, Dąbrowa Białostocka, Knyszyn, Mońki, Augustów, Suwałki, Sejny and Suchowola the following determinations were made: pH, pseudo-total content of Zn, Ni and Cu, organic matter and dry mass. The contents of the above-mentioned elements in fractions were evaluated using modified BCR method (four fractions: F1-acid soluble and exchangeable, F2-reducible, F3-oxidizable, F4-residual). The zinc content (mean values) in particular fractions can be arranged quantitatively in a sequence: F3 (60.8%) > F2 (20.0%) > F4 (19.9%) > F1 (3.9%), in the case of nickel: F3 ( 48.6%) > F2 (25.2%) > F4 (25.1%) > F1 (5.6%) and in the case of copper: F4 (66.3%) > F3 (35.3%) > F1 (4.2%) > F2 (3.0%). Cumulative content of zinc in mobile fractions (F1+F2+F3) ranged from 76.0 to 93.3%; for nickel from 56.3 to 89.6% and for copper from 28.8 to 53.3% of pseudo-total content.
Słowa kluczowe
Rocznik
Strony
133--139
Opis fizyczny
Bibliogr. 25 poz., tab.
Twórcy
autor
  • Department of Technology in Engineering and Environment Protection, Białystok University of Technology, Wiejska 45A, 15-351 Białystok, Poland
Bibliografia
  • 1. Bień J., Wystalska K. 2008. The problems of sewage sludge management. Inżynieria i Ochrona Środowiska, 11(1), 5–11.
  • 2. Bozkurt M.A., Yarılgaç T., Yazıcı A. 2010. The use of sewage sludge as an organic matter source in apple trees. Polish Journal of Environmental Studies, 19(2), 267–274.
  • 3. Dąbrowska L. 2004. Speciation of heavy metals in sewage sludge, in: Pathways of pollutants and migration strategies of their impact on the ecosystems. Komitet Inżynierii Środowiska, Lublin, 38–47.
  • 4. Dutkiewicz T. 1974. Chemia toksykologiczna. Państwowy Zakład Wydawnictw Lekarskich, Warszawa.
  • 5. Fernández Alborés A., Pérez Cid B., Fernández Gómez E., Falqué López E. 2000. Comparison between sequential extraction procedures and single extractions for metal partitioning in sewage sludge samples. Analyst, 125, 1353–1357.
  • 6. Filgueiras A. V., Lavilla I., Bendicho C. 2002. Chemical sequential extraction for metal partitioning in environmental solid samples. Journal of Environmental Monitoring, 4(6), 823–857.
  • 7. Fuentes A., Lloréns M., Sáez J., Soler A., Aguilar M.I., Ortuño J.F., Meseguer V.F. 2004. Simple and sequential extractions of heavy metals from different sewage sludges. Chemosphere, 54(8), 1039–1047.
  • 8. García-Delgado M., Rodríguez-Cruz M.S., Lorenzo L.F., Arienzo M, Sánchez-Martín M.J. 2007. Seasonal and time variability of heavy metal content and of its chemical forms in sewage sludges from different wastewater treatment plants. Science of the Total Environment, 382(1), 82–92.
  • 9. Gawdzik J., Gawdzik B. 2012. Mobility of heavy metals in municipal sewage sludge from different throughput sewage treatment plants. Polish Journal of Environmental Studies, 21(6), 1603–1611.
  • 10. Jakubus M., Czekała J. 2001. Heavy metal speciation in sewage sludge. Polish Journal of Environmental Studies, 10(4), 245–250.
  • 11. Kazi T.G., Jamali M.K., Kazi G.H., Arain M. B., Afridi H. I., Siddiqui A. 2005. Evaluating the mobility of toxic metals in untreated industrial wastewater sludge using a BCR sequential extraction procedure and a leaching test. Analytical and Bioanalytical Chemistry, 383(2), 297–304.
  • 12. Łukowski A. 2006. The influence of mineral fertilization on heavy metal fraction contents in soil. Part I. Zinc. Polish Journal of Environmental Studies, 15(2A), 410–414.
  • 13. Łukowski A. 2017. Fractionation of heavy metals (Pb, Cr and Cd) in municipal sewage sludges from Podlasie Province. Journal of Ecological Engineering, 18(1), 132–138.
  • 14. Łukowski A., Wiater J. 2009. The influence of mineral fertilization on heavy metal fraction contents in soil. Part II. copper and nickel. Polish Journal of Environmental Studies, 18(4), 645–650.
  • 15. Maćkowiak Cz. 2000. Skład chemiczny osadów ściekowych i odpadów przemysłu spożywczego o działaniu nawozowym. Nawozy i Nawożenie, 4(5), 131–143.
  • 16. Mazur T. 1995. The condition and perspective of the organic matter balance of the cultivated soils. Zeszyty Problemowe Postępu Nauk Rolniczych, 421a, 267–276.
  • 17. Michna W., Boguszewska M., Bykowski P. J. (Eds.). 1998. Raport z badań monitorowych nad jakością gleb, roślin, produktów rolniczych i spożywczych w 1997 roku. PIOŚ, Warszawa.
  • 18. Pérez-Cid B., Lavilla I., Bendicho C. 1999. Application of microwave extraction for partitioning of heavy metals in sewage sludge. Analytica Chimica Acta, 378(1–3), 201–210.
  • 19. Pueyo M., Sastre J., Hernández E., Vidal M., López-Sánchez J.F., Rauret G. 2003. Prediction of trace element mobility in contaminated soils by sequential extraction. Journal of Environmental Quality, 32(6), 2054–2066.
  • 20. Rosazlin A., Che Fauziah I., Rosenani A.B., Zauyah S. 2007. Domestic sewage sludge application to an acid tropical soil: Part III. Fractionation study of heavy metals in sewage sludge and soils applied with sewage sludge. Malaysian Journal of Soil Science, 11, 81–95.
  • 21. Ščančar J., Milačič R., Stražar M., Burica O., Bukovec P. 2001. Environmentally safe sewage sludge disposal: the impact of liming on the behaviour of Cd, Cr, Cu, Fe, Mn, Ni, Pb, and Zn. Journal of Environmental Monitoring, 3(2), 226–231.
  • 22. Shrivastava S.K., Banerjee D.K. 2004. Speciation of metals in sewage sludge and sludge-amended soils. Water, Air and Soil Pollution, 152, 219–232.
  • 23. Usman A. R. A., Kuzyakov Y., Stahr K. 2004. Dynamics of organic C mineralization and the mobile fraction of heavy metals in a calcareous soil incubated with organic wastes. Water, Air and Soil Pollution, 158(1), 401–418.
  • 24. Wang P.F., Zhang S.H., Wang C., Hou J., Guo P.C., Lin Z.P. 2008. Study of heavy metal in sewage sludge and in Chinese cabbage grown in soil amended with sewage sludge. African Journal of Biotechnology, 7(9), 1329–1334.
  • 25. Wilk M., Gworek B. 2009. Metale ciężkie w osadach ściekowych. Ochrona Środowiska i Zasobów Naturalnych, 39, 40–59.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-36a6b646-8fae-4c41-a64c-3185f66c4f5e
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