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Influence of temperature and time of sewage sludge incineration on the mobility of heavy metals

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Języki publikacji
EN
Abstrakty
EN
Sewage sludge ashes in comparison to sewage sludge are characterized by higher concentrations of heavy metals. The mobility of heavy metals in sewage sludge ashes determines their impact on the soil-water environment in the aspect of toxicology. This research statistically evaluates the influence of temperature and duration of SS incineration on the mobility of HM from SSA. For the incineration temperatures 600–980 °C and 2–20 min of incineration, the experiment domain was defined in accordance with the Box’s two-factor experimental design. It was proved that it was not the time but the temperature of SS incineration that had the statistically relevant influence on the mobility of nickel and copper.
Rocznik
Strony
105--122
Opis fizyczny
Bibliogr. 27 poz., tab., rys.
Twórcy
  • Kielce University of Technology, Faculty of Environmental, Geomatic and Energy Engineering, al. Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland
Bibliografia
  • [1] Council Directive 86/278/EEC of 4 July 1986 on the protection of the environment and in particular of the soil when sewage sludge is used in agriculture, Commission of European Communities
  • [2] Directive 2008/98/EC of the European Parliament and of the Council of 19 November 2008 on waste and repealing certain directives.
  • [3] XUEMEI L., ZHENSHAN K., JIZHEN D., PCDDs and PCDFs in sewage sludges from two wastewater treatment plants in Beijing, China, Chemosphere, 2011, 82, 635.
  • [4] YAWEI W., QINGHUA Z., JIANXIA L., AN L., HANXIA L., GUOGANG L., GUIBIN J., Polybrominated diphenyl ethers and organochlorine pesticides in sewage sludge of wastewater treatment plants in China, Chemosphere, 2007, 68, 1683.
  • [5] APARICIO J., SANTOS L., ALONSO E., Simultaneous sonication-assisted extraction, and determination by gas chromatography-mass spectrometry, of di-(2-ethylhexyl)phthalate, nonylphenol, nonylphenol ethoxylates and polychlorinated biphenyls in sludge from wastewater treatment plants, Anal. Chim. Acta., 2007, 584, 455.
  • [6] ELLED A.L., AMAND L.E., LECKNER B., ANDERSSON B.A., The fate of trace elements in fluidized bed combustion of sewage sludge and wood, Fuel, 2007, 86, 843.
  • [7] PATHAK A., DASTIDAR M.G., SREEKRISHNAN T.R., Bioleaching of heavy metals from sewage sludge. A review, J. Environ. Manage., 2009, 90, 2343.
  • [8] VAN DE VELDEN M., DEWIL R., BAEYENS J.,JOSSON L., LANSSENS P., The distribution of heavy metals during fluidized bed combustion of sludge (FBSC), J. Hazard. Mater., 2008, 15, 196.
  • [9] SINGH R.P., AGRAWAL M., Variations in heavy metal accumulation, growth and yield of rice plants grown at different sewage sludge amendment rates, Ecotox. Environ. Safe, 2010, 73, 632
  • [10] DĄBROWSKA L., Speciation of heavy metals in sewage sludge after mesophilic and thermophilic anaerobic digestion, Chem. Pap., 2012, 66, 598.
  • [11] ALVAREZ E.A., MOCHÓN M.C., JIMÉNZE SÁNCHEZ J.C., RODRÍGUEZ M.T., Heavy metal extractable forms in sludge form wastewater treatment plants, Chemosphere, 2002, 47, 765.
  • [12] FARRELL M.,JONES D.L., Heavy metal contamination of a mixed waste compost: metal speciation and fate, Bioresour. Technol., 2009, 100, 4423.
  • [13] MING C., XIAO-MING L., QI Y., GUANG-MING Z., YING Z., DE-XIANG L., JING-JIN L., JING-MEI H., LIANG G., Total concentrations and speciation of heavy metals in municipal sludge from Changsha, Zhuzhou and Xiangtan in middle-south region of China, J. Hazard. Mater., 2008, 160, 324.
  • [14] DĄBROWSKA L., Fractions of heavy metals in residue after incineration of sewage sludge, Environ. Prot. Eng., 2013, 39, 105.
  • [15] AL-SHARIF M.M., ATTOM M.F., A geo environmental application of burned wastewater sludge ash in soil stabilization, Environ. Earth Sci., 2014, 71 (5), 2453.
  • [16] FALACIŃSKI P., Possibilities of fluidal ashes application in anti-filtration barriers in environmental protection facilities, Scientific Bulletins of Rzeszów University of Technology, Construction and Environmental Engineering, 2011, 3, 33 (in Polish).
  • [17] LATOSIŃSKA J., GAWDZIK J., Effect on incineration temperature on the mobility of heavy metals in sewage sludge ash, Environ. Prot. Eng., 2012, 38, 31.
  • [18] DONATELLO S., TYRER M.,CHEESEMAN C.R., EU landfill waste acceptance criteria and EU Hazardous Waste Directive compliance testing of incinerated sewage sludge ash, Waste Manage., 2010, 30, 63.
  • [19] PIASTA Z., LENARCIK A., Applications of statistical multi-criteria optimisation in design of concretes, [in:] A.M. Brandt (Ed.), Optimization Methods for Material Design of Cement-Based Composites, E. & F.N. Spon, London 1998, 150–166.
  • [20] PIASTA Z., LENARCIK A., Methods of statistical multi-criteria optimization, [in:] A.M. Brandt (Ed.), Optimization Methods for Material Design of Cement-Based Composites, E. & F.N. Spon, London 1998, 45–59.
  • [21] CHEN T., YAN B., Fixation and partitioning of heavy metals in slag after incineration of sewage sludge, Waste Manage., 2012, 32, 957.
  • [22] LATOSIŃSKA J., GAWDZIK J., The impact of combustion technology of sewage sludge on mobility of heavy metals in sewage sludge ash, Ecol. Chem. Eng. S, 2014, 3, 465.
  • [23] VOGEL C., ADAM C., UNGER M., Heavy metal removal from sewage sludge ash analyzed by thermogravimetry, J. Therm. Anal. Calorim., 2011, 103, 243.
  • [24] HARTMAN M., POHOŘELŶ M., TRNKA O., Behaviour of inorganic constituents of municipal sewage sludge during fluidized-bed combustion, Chem. Pap., 2007, 61, 181.
  • [25] HAN J., XU M., YAO H., FURUUCHI M., SAKANO T., KIM H.J., Influence of calcium chloride on the thermal behavior of heavy metals and alkali metals in sewage sludge incineration, Waste Manage., 2008, 28, 833.
  • [26] PERRY R.H.,CHILTON C.H.,Chemical Engineers’ Handbook, 7th Ed., McGraw-Hill, 1997, 2–27.
  • [27] LUDWIG C., LUTZ H., WOCHELE J., Studying the evaporation behavior of heavy metals by thermo-desorption spectrometry, J. Anal. Chem., 2001, 371, 1057.
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-0e1adb54-dc4e-4e31-87c3-946cc61b0690
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