BibTex RIS Kaynak Göster

Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash

Yıl 2015, Özel Sayı, 29 - 35, 31.01.2015

Öz

The aim of the study was to evaluate the effect of the addition of various materials, i.e. municipal
sewage sludge, furnace ash and peat, as well as various doses of ash-sludge and ash-peat mixtures, on
some physico-chemical properties of the soil: pH, hydrolytic acidity, sorption complex capacity, organic
C content, the content of P, K and Mg available forms, total content of heavy metals and their forms
soluble in 1 mol · dm-3 HCl solution, and their speciation as well. Municipal sewage sludge and of ashsludge
and ash-peat mixtures use in the experiment caused the greatest increase in sorption capacity, in
content of phosphorus, potassium and magnesium and resulted in a gradual increase in the content of
studied heavy metals. The addition of ash and applied mixtures to the soil caused a change in soil reaction
(the pH increase). The ash was characterized by a low content of heavy metals. After peat and its mixtures
with ash application decreased content of heavy metals was observed, and when the peat was used
alone could be seen the greatest increase in the organic C content in the substrate. Distribution of heavy
metals in the fractions separated in different combinations show large variations, depending on the
tested metal and the studied variant. Chromium, zinc, lead and cadmium have been stored mainly in
the residual fraction (FV), and most of the copper and nickel have been specifically bound with organic
matter (FIV). It has been found that the alkaline materials application to the soil decreased the solubility
of most heavy metals, which results in a limitation of their uptake by plants. Chromium and copper were
an exception, which solubility increased with the alkalinity of the substrate. An exception was chromium
and copper, which solubility increased with the alkalinity of the substrate.

Kaynakça

  • Antonkiewicz J. 2007. The influence of various ash-and- sludge and ash-and-peat mixtures on yield and elements content in grass-birdsfoot-trefoil mixture. Part II. Heavy metals. Zesz. Probl. Post. Nauk Roln. 520, 265-278.
  • Antonkiewicz J. 2008. Influence of municipal sewage sludge incineration ash, peat and their mixtures on physicochemical properties and the heavy metals content in soil. Soil Science Annual, 59, 1, 18-28.
  • Antonkiewicz J. 2011. Assessment of bioavailability of heavy metals in wastes used for biological reclamation of hazardous waste landfill. Zesz. Nauk. UR w Krakowie, 484, seria Rozprawy z. 358: 119 pp.
  • Dąbrowska L., Rosińska A., Janosz-Rajczyk M. 2011. Heavy metals and PCBs in sewage sludge during thermophilic digestion process. Archives of Environmental Protection, 37, 3, 3-13.
  • Gawdzik J. 2012. Mobility of heavy metals in sewage sludge for example wastewater treatment plant. Inżynieria i Ochrona Środowiska, 15, 1, 5-15.
  • Gworek B., Mocek A., Kondzielski I. 2006. Speciation of copper in industrialny polluted soils – a comparison of two sequential extraction methods. Polish J. Environ. Stud. Vol. 15, No. 2a (2006), 295-303.
  • Kabata-Pendias A., Piotrowska M., Motowicka-Terelak T., Maliszewska-Kordybach T., Filipiak K., Krakowiak A., Pietruch Cz. 1995. Podstawy oceny chemicznego zanieczyszczenia gleb - metale ciężkie, siarka i WWA. Państwowa Inspekcja Ochrony Środowiska. Bibliot. Monit. Środ., Warszawa, ss. 41.
  • Kalembkiewicz J., Sočo E. 2004. Sequential extraction of Cr, Fe, Co, and Ni from industrial ash. Ecolog. Chem. and Engin. 11, 4-5, 347-352.
  • Papadimitriou C.A., Haritou I., Samaras P., Zouboulis A.I. 2008. Evaluation of leaching and ecotoxicological properties of sewage sludge-fly ash mixtures. Environmental Research, 106, 340-348.
  • Regulation. 2010. Rozporządzenie Ministra Środowiska z dnia 13 lipca 2010 r. w sprawie komunalnych osadów ściekowych. Dz. U. RP, Nr 137, poz. 924.
  • Rosik-Dulewska Cz. 2000. Sanitation of wastewater sludge with mineral wastes as metals speciation forms. Archiv. Environ. Protect., 26, 3, 29-42.
  • Rosik-Dulewska C., Głowala K., Karwaczyńska U., Robak J. 2008. Elution of heavy metals from granulates produced from municipal sewage deposits and fl y-ash of hard and brown coal in the aspect of recycling for fertilization purposes, Archives of Environmental Protection, 34 (2), 63−72.
  • Samaras P., Papadimitriou C.A., Haritou I., Zouboulis A.I. 2008. Investigation of sewage Sludge stabilization potential by the addition of fly ash and lime. Journal of Hazardous Materials, 154, 1052-1059.
  • Sienkiewicz S., Czarnecka M.H. 2012. Content of available Cu, Zn and Mn in soil amended with municipal sewage sludge. J. Elem. 17(4), 649-657
  • Systematics of Polish Soils. PTG. 1989. Roczn. Glebozn., 40, 3/4, 1-150.
  • Tessier A., Campbell P.G.C., Bisson M. 1979. Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry, vol. 51, 7, 844-851.
  • Wojcieszczuk T., Meller E., Sammel A., Stankowski S. 2009. The content and dissolubility of some chemical components in coal ashes of different origin. Zesz. Probl. Post. Nauk Roln., 535, 483-493.

Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash

Yıl 2015, Özel Sayı, 29 - 35, 31.01.2015

Öz

The aim of the study was to evaluate the effect of the addition of various materials, i.e. municipal
sewage sludge, furnace ash and peat, as well as various doses of ash-sludge and ash-peat mixtures, on
some physico-chemical properties of the soil: pH, hydrolytic acidity, sorption complex capacity, organic
C content, the content of P, K and Mg available forms, total content of heavy metals and their forms
soluble in 1 mol · dm-3 HCl solution, and their speciation as well. Municipal sewage sludge and of ashsludge
and ash-peat mixtures use in the experiment caused the greatest increase in sorption capacity, in
content of phosphorus, potassium and magnesium and resulted in a gradual increase in the content of
studied heavy metals. The addition of ash and applied mixtures to the soil caused a change in soil reaction
(the pH increase). The ash was characterized by a low content of heavy metals. After peat and its mixtures
with ash application decreased content of heavy metals was observed, and when the peat was used
alone could be seen the greatest increase in the organic C content in the substrate. Distribution of heavy
metals in the fractions separated in different combinations show large variations, depending on the
tested metal and the studied variant. Chromium, zinc, lead and cadmium have been stored mainly in
the residual fraction (FV), and most of the copper and nickel have been specifically bound with organic
matter (FIV). It has been found that the alkaline materials application to the soil decreased the solubility
of most heavy metals, which results in a limitation of their uptake by plants. Chromium and copper were
an exception, which solubility increased with the alkalinity of the substrate. An exception was chromium
and copper, which solubility increased with the alkalinity of the substrate.

Kaynakça

  • Antonkiewicz J. 2007. The influence of various ash-and- sludge and ash-and-peat mixtures on yield and elements content in grass-birdsfoot-trefoil mixture. Part II. Heavy metals. Zesz. Probl. Post. Nauk Roln. 520, 265-278.
  • Antonkiewicz J. 2008. Influence of municipal sewage sludge incineration ash, peat and their mixtures on physicochemical properties and the heavy metals content in soil. Soil Science Annual, 59, 1, 18-28.
  • Antonkiewicz J. 2011. Assessment of bioavailability of heavy metals in wastes used for biological reclamation of hazardous waste landfill. Zesz. Nauk. UR w Krakowie, 484, seria Rozprawy z. 358: 119 pp.
  • Dąbrowska L., Rosińska A., Janosz-Rajczyk M. 2011. Heavy metals and PCBs in sewage sludge during thermophilic digestion process. Archives of Environmental Protection, 37, 3, 3-13.
  • Gawdzik J. 2012. Mobility of heavy metals in sewage sludge for example wastewater treatment plant. Inżynieria i Ochrona Środowiska, 15, 1, 5-15.
  • Gworek B., Mocek A., Kondzielski I. 2006. Speciation of copper in industrialny polluted soils – a comparison of two sequential extraction methods. Polish J. Environ. Stud. Vol. 15, No. 2a (2006), 295-303.
  • Kabata-Pendias A., Piotrowska M., Motowicka-Terelak T., Maliszewska-Kordybach T., Filipiak K., Krakowiak A., Pietruch Cz. 1995. Podstawy oceny chemicznego zanieczyszczenia gleb - metale ciężkie, siarka i WWA. Państwowa Inspekcja Ochrony Środowiska. Bibliot. Monit. Środ., Warszawa, ss. 41.
  • Kalembkiewicz J., Sočo E. 2004. Sequential extraction of Cr, Fe, Co, and Ni from industrial ash. Ecolog. Chem. and Engin. 11, 4-5, 347-352.
  • Papadimitriou C.A., Haritou I., Samaras P., Zouboulis A.I. 2008. Evaluation of leaching and ecotoxicological properties of sewage sludge-fly ash mixtures. Environmental Research, 106, 340-348.
  • Regulation. 2010. Rozporządzenie Ministra Środowiska z dnia 13 lipca 2010 r. w sprawie komunalnych osadów ściekowych. Dz. U. RP, Nr 137, poz. 924.
  • Rosik-Dulewska Cz. 2000. Sanitation of wastewater sludge with mineral wastes as metals speciation forms. Archiv. Environ. Protect., 26, 3, 29-42.
  • Rosik-Dulewska C., Głowala K., Karwaczyńska U., Robak J. 2008. Elution of heavy metals from granulates produced from municipal sewage deposits and fl y-ash of hard and brown coal in the aspect of recycling for fertilization purposes, Archives of Environmental Protection, 34 (2), 63−72.
  • Samaras P., Papadimitriou C.A., Haritou I., Zouboulis A.I. 2008. Investigation of sewage Sludge stabilization potential by the addition of fly ash and lime. Journal of Hazardous Materials, 154, 1052-1059.
  • Sienkiewicz S., Czarnecka M.H. 2012. Content of available Cu, Zn and Mn in soil amended with municipal sewage sludge. J. Elem. 17(4), 649-657
  • Systematics of Polish Soils. PTG. 1989. Roczn. Glebozn., 40, 3/4, 1-150.
  • Tessier A., Campbell P.G.C., Bisson M. 1979. Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry, vol. 51, 7, 844-851.
  • Wojcieszczuk T., Meller E., Sammel A., Stankowski S. 2009. The content and dissolubility of some chemical components in coal ashes of different origin. Zesz. Probl. Post. Nauk Roln., 535, 483-493.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Jacek Antonkiewicz Bu kişi benim

Robert Pelka Bu kişi benim

Agnieszka Kowalewska Bu kişi benim

Yayımlanma Tarihi 31 Ocak 2015
Yayımlandığı Sayı Yıl 2015 Özel Sayı

Kaynak Göster

APA Antonkiewicz, J., Pelka, R., & Kowalewska, A. (2015). Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash. Toprak Su Dergisi29-35. https://doi.org/10.21657/tsd.98686
AMA Antonkiewicz J, Pelka R, Kowalewska A. Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash. TSD. Published online 01 Ocak 2015:29-35. doi:10.21657/tsd.98686
Chicago Antonkiewicz, Jacek, Robert Pelka, ve Agnieszka Kowalewska. “Fractions of Heavy Metals in the Soil After the Application of Municipal Sewage Sludge, Peat and Furnace Ash”. Toprak Su Dergisi, Ocak (Ocak 2015), 29-35. https://doi.org/10.21657/tsd.98686.
EndNote Antonkiewicz J, Pelka R, Kowalewska A (01 Ocak 2015) Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash. Toprak Su Dergisi 29–35.
IEEE J. Antonkiewicz, R. Pelka, ve A. Kowalewska, “Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash”, TSD, ss. 29–35, Ocak 2015, doi: 10.21657/tsd.98686.
ISNAD Antonkiewicz, Jacek vd. “Fractions of Heavy Metals in the Soil After the Application of Municipal Sewage Sludge, Peat and Furnace Ash”. Toprak Su Dergisi. Ocak 2015. 29-35. https://doi.org/10.21657/tsd.98686.
JAMA Antonkiewicz J, Pelka R, Kowalewska A. Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash. TSD. 2015;:29–35.
MLA Antonkiewicz, Jacek vd. “Fractions of Heavy Metals in the Soil After the Application of Municipal Sewage Sludge, Peat and Furnace Ash”. Toprak Su Dergisi, 2015, ss. 29-35, doi:10.21657/tsd.98686.
Vancouver Antonkiewicz J, Pelka R, Kowalewska A. Fractions of heavy metals in the soil after the application of municipal sewage sludge, peat and furnace ash. TSD. 2015:29-35.
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