Heavy metals partition between leachate and solids in the course of municipal sewage treatment
DOI:
https://doi.org/10.15626/Eco-Tech.2003.044Keywords:
heavy metals, soil, leachate, sewage sludge, municipal sewage treatment, MUCT technologyAbstract
Measurements of heavy metals contents (Cu, Zn, Pb, Cd) were carried out in liquid and solid fractions of sewage and sewage sludge after stabilization as well as dewatering. Investigation was carried out in municipal WWTP ,,Wschod" in Gdansk. The flow of sewage was equal to 88 000 m3 /d. The treatment consists of two stages: the first stage - mechanical (4screens, 2 sandtraps, 4 primary sedimentation tanks) and the second stage - advanced biological MUCT system (6 reactors - each incorporating the following chambers: dephosphatation, pre-denitrification, denitrification and nitrification followed by 2 secondary sedimentation tanks) modified by introduction of an additional chamber which secures dioxidation of sewage recirculated between nitrification and denitrification chambers. Sewage sludge (primary and secondary) is stabilized by fermentation. The last step of sludge utilization is mechanical dewatering. Samples of sewage were collected at the following points of the WWTP: at the beginning - raw sewage, mechanically treated sewage and biologically treated sewage. Samples of reject waters after thickening and after mechanical dewatering of sludge were collected too. The following types of sewage sludge were investigated: primary, secondary, thickened (on the Klein press), digested and mechanically dewatered (Noxon centrifuges). In the sampling points samples were collected twice per month during the 6 months period in the years 2000-2001. Inflowing sewage carried the following loads of heavy metals: Zn - 27.2 kg/d, Cu - 5.4 kg/d, Pb - 1.3 kg/d and Cd - 0.4 kg/d. Basing on balances of heavy metals loads it was proved that 87.0% Zn and 83.0% Cu were kept in sludge. Among analysed sewage sludge samples, the highest contents of heavy metals was found in sludge after mechanical dewatering and in the mixture of primary and secondary sludge (Zn - 780.4 mg/kg d.m., Cu - 144.6 mg/kg d.m., Pb - 5.4 mg/kg d.m. and Cd - 2.4 mg/kg d.m. The contents of heavy metals in examined sludge were compared with Polish admissible loads of metals applied with sludge to soil fertilization. Basing on the findings, admissible loads of sewage sludge to agricultural land were not exceeded.
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References
Bernacka J,, Pwalowska L Heavy metals in municipal sewage and possibilities of sewage sludge utilization, Proceedings of the Polish Conference "Operation of Wastewater Treatment Plants", Kieke 1995: 21 1-224, [in Polish]
Hermanowicz W,, Dozanska W,, Dojlido J,, Koziorowski B., Physical and chemical analyses methods of water and wastewater, Arkady, Warsaw 2000, [in Polish]
Hobson P,, Bousfield N,, Sommers R, Anaerobic digestion of organic matter. Crit. Ren, Environm, Control 1974, 4: 131-191, https://doi.org/10.1080/10643387409381614
Hooda P.S,, Alloway B.J., Changes in operational fractions of trace metals in two soils during two-years of reaction time following sewage sludge treatment. Intern, J, Environ, Anal, Chem., 57, 1994, 289-311 https://doi.org/10.1080/03067319408027462
Regulation of the Ministry of Environment of the August 2002, Dz.U.02/134/1a140.
Scancar J,, Milcic R., Strazar M., Burica O,, Total metal concentrations and partitioning of Cd, Cr, Cu, Fe, Ni, Pb and Zn in sewage sludge, The Science of the
Total Environment 250, 2000: 9-19. https://doi.org/10.1016/S0048-9697(99)00478-7
Sommers L,E, Chemical composition of sewage sludges and analysis of their potential use as fertilizers, J, Environ. Quality 1976, 6: 225-232. https://doi.org/0.2134/jeq1977.00472425000600020026x