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Phosphorus speciation in sewage sludge

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Excessive sewage sludge in terms of contained phosphorus speciation forms has been characterized. The analysis allowed identification of mobile forms of phosphorus in sewage sludge. Quantification of mobile forms of phosphorus is very important for its recovery directly from sewage sludge or for its application for natural purposes. Various phosphorus speciation methods have been presented. The results of the sewage sludge speciation conducted by means of two types of wastewater treatment (EvU-Perl technology and activated sludge) have been compared. The analysis covered the effect of such physiochemical factors as oxygenation, use of ultrasound and precipitation with iron chloride(III). It was concluded that changes in physiochemical conditions lead to alterations in the content of phosphorus speciation forms in sewage sludge.
Rocznik
Strony
161--175
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
  • Chair of Environmental Engineering and Protection, Faculty of Environmental Engineering, Geomatics and Power Engineering, The Kielce University of Technology, al. Tysiąclecia Państwa Polskiego 7, 25-314 Kielce
autor
  • Higher Engineering School of Security and Labour in Radom, ul. Mokra 13–19, 26-600 Radom
autor
  • Chair of Environmental Engineering and Protection, Faculty of Environmental Engineering, Geomatics and Power Engineering, The Kielce University of Technology, al. Tysiąclecia Państwa Polskiego 7, 25-314 Kielce
Bibliografia
  • [1] GRZMIL B., WRONKOWSKI J., Processes for removing and recovering phosphates from wastewaters, Chem. Rev., 2004, 6, 275.
  • [2] Second National Environmental Policy, adopted by the Cabinet in June 2000 and Parliament in August 2001.
  • [3] Regulation of the Minister of the Environment of 24.07.2006 on the conditions to be met with the introduction of sewage into the water or land, and on substances particularly harmful to the aquatic environment, Journal of Laws, 2006, No. 137, item. 984.
  • [4] MIELCZAREK A., NGUYEN H., NIELSEN J., NIELSEN P., Population dynamics of bacteria involved in enhanced biological phosphorus removal in Danish wastewater treatment plants, Water Res., 2013, 15 (47), 1529.
  • [5] LINDA L., GREGORY R., AARON M., PHILIP L., A review and update of the microbiology of enhanced biological phosphorus removal in wastewater treatment plants, Anton. Leeuw. Int. J.G., 2002 (81), 681.
  • [6] BIEŃ J., NECZAJ E., WORWĄG M., GROSSER A., NOWAK D., MILCZAREK M., JANIK M., Directions management of sludge in Poland after 2013, Inż. i Ochr. Środ., 2011, 14 (4), 375.
  • [7] MAURER M., BOLLER M., Modelling of phosphorus precipitation in wastewater treatment plants with enhanced biological phosphorus removal, Water Sci. Technol., 1999, 39, 147.
  • [8] WANG C., FENG S., WANG P., LI X., ZOU L., Distribution of phosphorus fractions and bio-available phosphorus forms and their relationships in sewage sludge, Chinese J. Environ. Sci., 2008, 6, 1593.
  • [9] SINGH R., AGRAWAL M., Potential benefits and risks of land application of sewage sludge, Waste Manage., 2008, 28 (2), 347.
  • [10] INSEL G., GÜDER B., GÜNEŞ G., UBAY COKGOR E., Are standard wastewater treatment plant design methods suitable for any municipal wastewater?, Water Sci. Technol., 2012, 66, 328.
  • [11] SCHACHTMAN D., REID R., AYLING S., Phosphorus uptake by plants. From soil to cell, Plant Physiol.,1998, 116 (2), 447.
  • [12] GONZÁLEZ MEDEIROS J., PÉREZ CID B., FERNÁNDEZ GÓMEZ E., Analytical phosphorus fractionation in sewage sludge and sediment samples, Anal. Bioanal. Chem., 2005, 381 (4), 873.
  • [13] BEZAK-MAZUR E., MAZUR A., Phosphorus speciation in sewage sludge produced with application ofthe EvU-Perl, Ochr. Środ. Zasob. Natur., 2011, 49, 382.
  • [14] BEZAK-MAZUR E, MAZUR A., Influence of precipitation agents on speciation of phosphorus in sediments, Ochr. Środ. Zasob. Natur., 2009, 40, 561.
  • [15] PETTERSSON K., BOSTRIIM B., JACOBSEN O., Phosphorus in sediments – speciation and analysis, Hydrobiologia, 1988, 170, 91.
  • [16] WILLIAMS J.D., SYERS J.K., WALKER T., Fractionation of soil inorganic phosphate by a modification of Chang and Jackson?s procedure, Soil Sci. Soc. Amer. Proc., 1973, 31.
  • [17] CARTER M., GREGORICH E., Soil sampling and methods of analysis, CRC Press, Boca Raton 2007.
  • [18] HIELTJES A., LIJKLEMA L., Fractionation of inorganic phosphates in calcareous sediments, J. Environ. Qual., 1980, 9 (3), 405.
  • [19] WANG C., ZHANG Y., LI H., MORISSON R., Sequential extraction procedures for the determination of phosphorus forms in sediment, Limnol., 2013, 14, 147.
  • [20] GOLTERMAN H.L., Fractionation of phosphate with chelating compounds: a simplification, and comparison with other methods, Hydrobiologia., 1996, 335 (1), 87.
  • [21] URE A.M., QUEVAUVILLER P., MUNTAU H., GRIEPINK B., Speciation of heavy metals in soils and sediments. An account of the improvement and harmonization of extraction techniques undertaken under the auspices of the BCR of the Commission of the European Communities, Intern. J. Environ., Anal. Chem., 1993, 53, 135.
  • [22] PSENNER R., Phosphoruos fractionation: advantages and limits of the method for the study of sediment P origins and interactions, Arch. Hydrobiol. Beih. Ergebn. Limnol., 1988, 30, 43.
  • [23] RYDIN E., WELCH E.B., Aluminum dose required to inactivate phosphate in lake sediments, Water Res., 1998, 32 (10), 2969.
  • [24] CORA-GIL B., Phosphates migration during wastewater sludge stabilization, Doctoral thesis, Silesian University of Technology, Gliwice 2002.
  • [25] The determination of phosphorus. Spectrophotometric method with ammonium molybdate, BS EN ISO 6878:2004.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-aea76566-e83b-4d39-af3a-2cb630619bf6
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