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Fraction of heavy metals in sludges from typical coking wastewater treatment plants by modified BCR sequential extraction procedure

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Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Fractions of 8 heavy metals (Cd, Cr, Hg, Cu, Zn, Pb, Ni and As) in sludges from two typical coking wastewater treatment plants were determined by atomic absorption spectroscopy (AAS) using the modified the European Community Bureau of Reference sequential extraction procedure as the pretreatment technology. The sludges from biological, coagulation deposition units and the discharged sludges of two plants were sampled and the exchangeable, reducible, oxidable, residual fraction and the total content were determined. The oxidable or residual fraction was the predominant fraction in various sludges and on the contrary that the values of the exchangeable and reducible fractions were much lower. Poor biological availability and low potential environment risk of heavy metals was found in sludges from typical coking wastewater treatment plants. Further results of cluster analysis conducted by SPSS that the units with similar conditions could be classed together identified that the unit condition was one key factor affecting on the fraction of heavy metals in sludges.
Rocznik
Strony
191--207
Opis fizyczny
Bibliogr. 23 poz., tab., rys.
Twórcy
autor
  • Key Laboratory of Pollution Control and Ecosytem Restoration in Industry Cluster, Ministry of Education, School of Environment and Energy, South China University of Technology, Guangzhou; 510006, China
  • School of Environment and Planning, Liaocheng University, Liaocheng; 252059, China
autor
  • Key Laboratory of Pollution Control and Ecosytem Restoration in Industry Cluster, Ministry of Education, School of Environment and Energy, South China University of Technology, Guangzhou; 510006, China
Bibliografia
  • [1] VARANK G., DEMIR A., BILGILI M.S., TOP S., SEKMAN E., YAZICI S., ERKAN H.S., Equilibrium and kinetic studies on the removal of heavy metal ions with natural low-cost adsorbents, Environ. Prot. Eng., 2014, 40, 43.
  • [2] KYZIOŁ-KOMOSIŃSKA J., ROSIK-DULEWSKA C., DZIENISZEWSKA A., PAJAK M., KRZYŻEWSKA I., Removal of Cr(Ⅲ) ions from water and wastewater by sorption onto peats and clays occurring in an overburden of lignite beds in central Poland, Environ. Prot. Eng., 2014, 40, 5.
  • [3] MOBERLY J.G.,STAVEN A.,SANI R.K.,PEYTON B.M., Influence of pH and inorganic phosphate on toxicity of zinc to Arthrobacter sp. isolated from heavy-metal-contaminated sediments, Environ. Sci. Technol., 2010, 44, 7302.
  • [4] BRUDER-HUBSCHER V.,LAGARDE F.,LEROY M.,COUGHANOWR C.,ENGUEHARD F., Application of a sequential extraction procedure to study the release of elements from municipal solid waste incineration bottom ash, Anal. Chim. Acta, 2002, 451, 285.
  • [5] STEPHENS S.R., ALLOWAY B.J., PARKER A., CARTER J.E., HODSON M.E., Changes in the leachability of metals from dredged canal sediments during drying and oxidation, Environ. Pollut., 2001, 114, 407.
  • [6] NOWAK B., GRZEGORCZYK M., CZAPLICKA M., ZIELONKA U., Comparison of two different analytical procedures for determination of total mercury in wet deposition samples, Environ. Prot. Eng., 2013, 39, 75.
  • [7] YUAN C.G., SHI J.B., HE B., LIU J.F., LIANG L.N., JIANG G.B., Speciation of heavy metals in marine sediments from the East China Sea by ICP-MS with sequential extraction, Environ. Int., 2004, 30, 769.
  • [8] REID M.K., SPENCER K.L., SHOTBOLT L., An appraisal of microwave-assisted Tessier and BCR sequential extraction methods for the analysis of metals in sediments and soils, J. Soils Sediment, 2011, 11, 518.
  • [9] FRANKOWSKI M.,ZIOLA-FRANKOWSKA A., KOWALSKI A., SIEPAK J., Fraction of heavy metals in bottom sediments using Tessier procedure, Environ. Earth Sci., 2012, 60, 1165.
  • [10] JOHNSON C.E., Reply on comments on Cation exchange properties of acid forest soils of the northeastern USA by G. Limousin & D. Tessier, Eur. J. Soil Sci., 2003, 54, 645.
  • [11] LIMA M.C., GIACOMELLI M., STUPP V., ROBERGE F.D., BARRERA P.B., Speciation analysis of copper and lead in Tubarao River sediment using the Tessier sequential extraction procedure, Quim. Nova, 2001, 24, 734.
  • [12] FRENTIU T., PONTA M., LEVEI E., GHEORGHIU E., KASLER I., CORDOS E.A., Validation of the Tessier scheme for speciation of metals in soil using the Bland and Altman test, Chem. Pap., 2008, 62, 114.
  • [13] PAN H., HSE C.Y., GAMBRELL R., SHUPE T.F., Fraction of heavy metals in liquefied chromated copper arsenate (CCA)-treated wood sludge using a modified BCR-sequential extraction procedure, Chemosphere, 2009, 77, 201.
  • [14] TOKALIOGLU S., KARTAL S., GULTEKIN A., Investigation of heavy-metal uptake by vegetables growing in contaminated soils using the modified BCR sequential extraction method, Int. J. Environ. Anal. Chem., 2006, 86, 417.
  • [15] NEMATI K., ABU BAKAR N.K., ABAS M.R., SOBHANZADEH E., Speciation of heavy metals by modified BCR sequential extraction procedure in different depths of sediments from Sungai Buloh, Selangor, Malaysia, J. Hazard. Mater., 2011, 192, 402.
  • [16] FRENTIU T., PONTA M., LEVEI E., CORDOS E.A., Study of partitioning and dynamics of metals in contaminated soil using modified four-step BCR sequential extraction procedure, Chem. Pap., 2009, 63, 239.
  • [17] LASHEEN M.R., AMMAR N.S., 21 Assessment of metals speciation in sewage sludge and stabilized sludge from different Wastewater Treatment Plants, Greater Cairo, Egypt, J. Hazard. Mater., 2009, 164, 740.
  • [18] ALONSO E., VILLAR P., SANTOS A., APARICIO I., 23 cations of heavy metals in sludge from anaerobic wastewater stabilization ponds in southern Spain, Waste Manage., 2006, 26, 1270.
  • [19] WANG C., LI X.C., MA H.T., QIAN J., ZHAI J.B., Distribution of extractables of heavy metals in sludge during the wastewater treatment process, J. Hazard. Mater., 2006, 137, 1277.
  • [20] BHARTI S., BANERJEE T.K., Bioaccumulation of Metals in the Edible Catfish Heteropneustes fossilis (Bloch) Exposed to Coal Mine Effluent Generated at Northern Coalfield Limited, Singrauli, India, B. Environ. Contam. Tox., 2011, 87, 393.
  • [21] SEREDIN V.V., From coal science to metal production and environmental protection: A new story of success Commentary, Int. J. Coal Geol., 2012, 90, 1.
  • [22] REN Y., Environmental and biological characteristics of coking wastewater, Environ. Sci. Acta, 2007, 61, 1094.
  • [23] ALVAREZ E.A., MOCHON M.C., SANCHEZ J.C.J., RODRIGUEZ M.T., Heavy metal extractable forms in sludge from wastewater treatment plants, Chemosphere, 2002, 47, 765.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-831d40d1-cf5b-4c83-b147-5e2e06c244a8
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