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Effect of carbon source and nitrate concentration on denitrification of high-nitrate wastewater

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the present work was to study the applicability of the activated sludge from a municipal wastewater treatment plant for high strength nitrate denitrification process. A sequenced batch reactor operated at initial nitrate concentration in the range from 750 to 8500 mg NO3 -N/dm3 .The effectiveness of various carbon sources on denitrification rate and nitrite accumulation was studied. The average specific denitrification rate was in the range from 58 to 62 mg NO3 -N /(g VSS·h) for ethanol, glycerol, molasses and whey. The denitrification with methanol was not effective.
Rocznik
Strony
73--89
Opis fizyczny
Bibliogr. 23 poz., tab., rys.
Twórcy
  • Unipetrol Centre for Research and Education, a.s., Revoluční 84, 400 11 Ústí nad Labem, Czech Republic
autor
  • Unipetrol Centre for Research and Education, a.s., Revoluční 84, 400 11 Ústí nad Labem, Czech Republic
  • Faculty of Environmental Technology, University of Chemistry and Technology, Technická 3, 166 28 Praha, Czech Republic
Bibliografia
  • [1] GLASS C., SILVERSTEIN J., Denitrification of high-nitrate, high-salinity wastewater, Water Res., 1999, 33 (1), 223.
  • [2] CYPLIK P., MARECIK R., PIOTROWSKA-CYPLIK A., OLEJNIK A., DROZDZYNSKA A., CHRZANOWSKI L., Biological denitrification of high nitrate processing wastewaters from explosives production plant, Water, Air, Soil Pollut., 2012, 223 (4), 1791.
  • [3] DHAMOLE P.B., NAIR R.R., D’SOUZA S.F., LELE S.S., Denitrification of high strength nitrate waste, Bioresour. Technol., 2007, 98 (2), 247.
  • [4] FERRO S., Removal of nitrates from industrial wastewater, La Chimica L’Industria, 2013, 12, 100.
  • [5] BREISHA G.Z., Bio-removal of nitrogen from wastewaters. A review, Nat. Sci., 2010, 8 (12), 210.
  • [6] FERNANDEZ-NAVA Y., MARANON E., SOONS J., CASTRILLON L., Denitrification of wastewater containing high nitrate and calcium concentrations, Bioresour. Technol., 2008, 99 (17), 7976.
  • [7] NAIK S., PYDI SETTY Y., Biological denitrification of wastewater. A mini review on carbon source, International Conference on Chemical, Environmental Science and Engineering (ICEEBS 2012), Pattaya (Thailand), 2012, 47.
  • [8] CARRERA J., VICENT T., LAFUENTE F.J., Influence of temperature on denitrification of an industrial high-strength nitrogen wastewater in a two-sludge system, Water SA, 2003, 29 (1), 11.
  • [9] FOGLAR L., BRIŠKI F., Wastewater denitrification process. The influence of methanol and kinetic analysis, Process Biochem., 2003, 39 (1), 95.
  • [10] KRISHNA MOHAN T.V., NANCHARAIAH Y.V., VENUGOPALAN V.P., SATYA SAI P.M., Effect of C/N ratio on denitrification of high-strength nitrate wastewater in anoxic granular sludge sequencing batch reactors, Ecol. Eng., 2016, 91, 441.
  • [11] CONSTANTIN H., FICK M., Influence of C-sources on the denitrification rate of a high-nitrate concentrated industrial wastewater, Water Res., 1997, 31 (3), 583.
  • [12] REZAEE A., GODINI H., SOLTANI R.D.C., HOSSINI H., NILI-AHMADABADI A., Denitrification of high salinity, high nitrate wastewater using clinoptilite in a packed bed bioreactor, J. Environ. Res. Manage., 2012, 3 (2), 031.
  • [13] DE FILIPPIS P., DI PALMA L., SCARSELLA M., VERDONE N., Biological denitrification of high-nitrate wastewaters. A comparison between three electron donors, Chem. Eng. Trans., 2013, 32, 319.
  • [14] SOTO O., ASPÉ E., ROECKEL M., Kinetics of cross-inhibited denitrification of a high load wastewater, Enzyme Microb. Technol., 2007, 40 (6), 1627.
  • [15] UEDA T., SHINOGI Y., YAMAOKA M., Biological nitrate removal using sugar-industry wastes, Paddy Water Environ., 2006, 4 (3), 139.
  • [16] TEPUŠ B., SIMONIČ M., PETROVIČ A., FILIPIČ J., Denitrification of spent regenerated brine using molasses, Croat. Chem. Acta, 2014, 87 (2), 97.
  • [17] AKUNNA J.C., BIZEAU C., MOLETTA R., Nitrate and nitrite reductions with anaerobic sludge using various carbon sources: glucose, glycerol, acetic acid, lactic acid and methanol, Water Res., 1993, 27 (1), 1303.
  • [18] CYPLIK P., JUZWA W., MARECIK R., POWIERSKA-CZARNY J., PIOTROWSKA-CYPLIK A., CZARNY J., DROZDZYNSKA A., CHRZANOWSKI L., Denitrification of industrial wastewater. Influence of glycerol addition on metabolic activity and community shifts in a microbial consortium, Chemosphere, 2013, 93 (11), 2823.
  • [19] PINAR G., DUQUE E., HAIDOUR A., OLIVA J., SANCHEZ-BARBERO L., CALVO V., RAMOS J.L., Removal of high concentrations of nitrate from industrial wastewaters by bacteria, Appl. Environ. Microbiol., 1997, 63 (5), 2071.
  • [20] FOGLAR L., BRISKI F., SIPOS L., VUKOVIC M., High nitrate removal from synthetic wastewater with the mixed bacterial culture, Bioresour. Technol., 2005, 96 (8), 879.
  • [21] LU H., CHANDRAN K., STENSEL D., Microbial ecology of denitrification in biological wastewater treatment, Water Res., 2014, 64, 237.
  • [22] GE S., PENG Y., WANG S., LU C., CAO X., ZHU Y., Nitrite accumulation under constant temperature in anoxic denitrification process. The effects of carbon sources and COD/NO3-N, Bioresour. Technol., 2012, 114, 137.
  • [23] ELEFSINIOTIS P., LI D., The effect of temperature and carbon source on denitrification using volatile fatty acids, Biochem. Eng. J., 2006, 28 (2), 148.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d2f4ee80-25e9-4ce0-a1c3-d238bdecc4f4
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