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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 42, 2007 - Issue 3
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ARTICLES

Characteristics of a twice-fed sequencing batch reactor treating swine wastewater under control of aeration intensity

Zhiying Han College of Environmental and Resource Sciences, Zhejiang University, Hangzhou, Zhejiang, 310029, P.R. China
,
Weixiang Wu College of Environmental and Resource Sciences, Zhejiang University, Hangzhou, Zhejiang, 310029, P.R. China
,
Yingxu Chen College of Environmental and Resource Sciences, Zhejiang University, Hangzhou, Zhejiang, 310029, P.R. China
&
Jun Zhu College of Environmental and Resource Sciences, Zhejiang University, Hangzhou, Zhejiang, 310029, P.R. China
Pages 361-370 | Received 30 May 2006, Published online: 31 Jan 2007

References

  • Hountin , J. A. , Karam , A. , Couillard , D. and Cescas , M. P. 2000 . Use of a fractionation procedure to assess the potential for P movement in a soil profile after 14 years of liquid pig manure fertilization . Agric. Ecosyst. Environ. , 78 ( 1 ) : 77 – 84 .
  • Novak , J. M. , Watts , D. W. , Hunt , P. G. and Stone , K. 2000 . Phosphorus movement through a coastal plan soil after a decade of intensive swine manure application . J. Environ. Qual. , 29 ( 4 ) : 1310 – 1315 .
  • Karlen , D. L. , Cambardella , C. A. and Kanwar , R. S. 2004 . Challenges of managing liquid swine manure . Appl. Eng. Agric. , 20 ( 5 ) : 693 – 699 .
  • Bortone , G. , Gemelli , S. , Rambaldi , A. and Tilche , A. 1992 . Nitrification, denitrificaiton and biological phosphorus removal in sequencing batch rectors treating piggery wastewater . Water Res. Tech. , 26 ( 5–6 ) : 977 – 985 .
  • Ra , C. S. , Lo , K. V. , Shin , J. S. , Oh , J. S. and Hong , B. J. 2000 . Biological nutrient removal with an internal organic carbon source in piggery wastewater treatment . Water Res. , 31 ( 3 ) : 965 – 973 .
  • Obaja , D. , Macé , S. , Costa , J. and Mata-Alvarez , J. 2003 . Nitrification, denitrification and biological phosphorus removal in piggery wastewater using a sequencing batch reactor . Biores. Tech. , 87 ( 1 ) : 103 – 111 .
  • Tilche , A. , Bacilieri , E. , Bortone , G. , Malaspine , F. , Piccinini , S. and Stane , L. 1999 . Biological phosphorus and nitrogen removal in a full scale sequencing batch reactors treating piggery wastewater . Water Res. Tech. , 40 ( 1 ) : 199 – 206 .
  • Obaja , D. , Macé , S. and Mata-Alvarez , J. 2005 . Biological nutrient removal by a sequencing batch reactor (SBR) using an internal organic carbon source in digested piggery wastewater . Biores. Tech. , 96 ( 1 ) : 7 – 14 .
  • Ra , C. S. , Lo , K. V. and Mavinic , D. S. 1998 . Real-time control of two-stage sequencing batch reactor system for the treatment of animal wastewater . Environ. Technol. , 19 : 343 – 356 .
  • Ra , C. S. , Lo , K. V. and Mavinic , D. S. 1999 . Control of a swine manure treatment process using a specific feature of oxidation reduction potential . Biores. Tech. , 70 ( 2 ) : 117 – 127 .
  • Kishida , N. , Kim , J. H. , Chen , M. , Sasaki , H. and Sudo , R. 2003 . Effectiveness of oxidation-reduction potential and pH as monitoring and control parameters for nitrogen removal in swine wastewater treatment by sequencing batch reactors . J. Biosci. Bioeng. , 96 ( 3 ) : 285 – 290 .
  • Kim , J. H. , Chen , M. , Kishida , N. and Sudo , R. 2004 . Integrated real-time control strategy for nitrogen removal in swine wastewater using sequencing batch reactors . Water Res. , 38 ( 14–15 ) : 3340 – 3348 .
  • Lee , S. I. , Park , J. H. , Ko , K. B. and Koopman , B. 1997 . Effect of fermented swine wastes on biological nutrient removal in sequencing batch reactors . Water Res. , 31 ( 7 ) : 1087 – 1812 .
  • Zhang , Z. , Zhu , J. , King , J. and Li , W. 2006 . A two-step fed SBR for treating swine manure . Proc. Biochem. , 41 ( 4 ) : 892 – 900 .
  • Andreottolla , G. , Borton , G. and Tilche , A. 1997 . Experimental validation of a simulation and design model for nitrogen removal in sequencing batch reactors . Water Res. Tech. , 35 ( 1 ) : 113 – 120 .
  • Artan , N. , Tasli , R. and Orhon , D. 2006 . Rational basis for optimal design of sequencing batch reactors with multiple anoxic filling for nitrogen removal . Proc. Biochem. , 41 ( 4 ) : 901 – 908 .
  • Schramm , A. , Santegoeds , C. M. , Nielsen , H. K. , Ploug , H. , Wagner , M. , Pribyl , M. , Wanner , J. , Amann , R. and DeBeer , D. 1999 . On the occurrence of anoxic microniches, denitrification, and sulfate reduction in aerated activated sludge . Appl. Environ. Microbiol. , 65 ( 9 ) : 4189 – 4196 .
  • Satoh , H. , Nakamura , Y. , Ono , H. and Okabe , S. 2003 . Effect of oxygen concentration on nitrification and denitrification in single activated sludge flocs . Biotech. Bioeng. , 83 ( 5 ) : 604 – 607 .
  • Ciudad , G. , Rubilar , O. , Muňoz , P. , Ruiz , G. , Chamy , R. , Vergara , C. and Jeison , D. 2005 . Partial of nitrification of high ammonia concentration wastewater as a part of a shortcut biological nitrogen removal process . Proc. Biochem. , 40 ( 5 ) : 1715 – 1719 .
  • Akın , B. S. and Ugurlu , A. 2004 . The effect of an anoxic zone on biological phosphorus removal by a sequencing batch reactor . Biores. Tech. , 94 ( 1 ) : 1 – 7 .
  • Brdjanovic , D. , Slamet , A. , van Loosdrecht , M. C.M. , Hooijmans , C. M. , Alaerts , G. J. and Heijnen , J. J. 1998 . Impact of excessive aeration on biological phosphorus removal from wastewater . Water Res. , 32 ( 1 ) : 200 – 208 .
  • Kuba , T. , Wachtmeister , A. , van Loosdrecht , M. C.M. and Heijnen , J. J. 1994 . Effect of nitrate on phosphorus release in biological phosphorus removal systems . Wat. Sci. Tech. , 30 : 263 – 269 .
  • Weon , S. Y. , Lee , C. W. , Lee , S. I. and Koopman , B. 2002 . Nitrite inhibition of aerobic growth of Acinetobacter sp . Water Res. , 36 ( 18 ) : 4471 – 4476 .
  • Saito , T. , Brdjanovic , D. and van Loosdrecht , M CM . 2004 . Effect of nitrite on phosphate uptake by phosphate accumulating organisms . Water Res. , 38 ( 17 ) : 3760 – 3768 .
  • 1998 . Standard Methods for the Examination of Water and Wastewater, , 20th Ed. , Washington , DC : American Public Health Association .
  • 1993 . DR/3000 Spectrophotometer Procedure Manual , Loveland , CO : Hach Company .
  • Metcalf and Eddy . 1991 . Wastewater Engineering: Treatment Disposal and Reuse , New York : McGraw Hill .
  • Grady , C. P.L. , Daigger , G. T. and Lim , H. C. 1999 . “ Multiple microbial activities in a single continuous stirred tank reactor ” . In Biological Wastewater Treatment , 208 – 220 . New York : Marcel Dekker, Inc. .
  • Park , H. D. , Regan , J. M. and Noguera , D. R. 2002 . Molecular analysis of ammonia-oxidizing bacterial populations in aerated-anoxic Orbal processes . Water Sci. Technol. , 46 ( 1–2 ) : 273 – 280 .
  • Daigger , G. T. and Littleton , H. X. 2000 . Characterization of simultaneous nutrient removal in staged, closed-loop bioreactors . Water Environ. Res. , 72 ( 3 ) : 330 – 339 .
  • Park , H. D. and Noguera , D. R. 2004 . Evaluating the effect of dissolved oxygen on ammonia oxidizing bacterial communities in activated sludge . Water Res. , 38 ( 14–15 ) : 3275 – 3286 .
  • Zeng , R. J. , Lemaire , R. , Yuan , Z. and Keller , J. 2003 . Simultaneous nitrification, denitrification, and phosphorus removal in a lab-scale sequencing batch reactor . Biotech. Bioeng. , 84 ( 2 ) : 170 – 178 .
  • Pochana , K. , Keller , J. and Lant , J. 1999 . Model development for simultaneous nitrification and denitrification . Wat. Sci.Tech. , 39 ( 1 ) : 235 – 243 .
  • Third , K. A. , Burnett , N. and Cord-Ruwisch , R. 2003 . Simultaneous nitrification and denitrification using stored substrate (PHB) as the electron donor in an SBR . Biotech. Bioeng. , 83 ( 2 ) : 706 – 720 .
  • Holman , J. B. and Wareham , D. G. 2005 . COD, ammonia and dissolved oxygen time profiles in the simultaneous nitrification/denitrification process . Biochem. Eng. J. , 22 ( 2 ) : 125 – 133 .
  • Beun , J. J. , Verhoef , E. V. , van Loosdrecht , M. C.M. and Heijnen , J. J. 2000 . Stoichiometry and kinetics of poly-β -hydroxybutyrate metabolism under denitrification conditions in activated sludge cultures . Biotech. Bioeng. , 68 ( 5 ) : 496 – 507 .
  • Chang , C. H. and Hao , O. J. 1996 . Sequencing batch reactor system for nutrient removal: ORP and pH profiles . J. Chem. Tech. Biotechnol. , 67 ( 1 ) : 27 – 38 .
  • Laridi , R. , Drogui , P. , Benmoussa , H. , Blais , J. F. and Auclair , J. C. 2005 . Removal of refractory organic compounds in liquid swine manure obtained from a biofiltration process using an electrochemical treatment . J. Environ. Eng. , 131 ( 9 ) : 1302 – 1310 .
  • Leenheer , J. A. and Rosta , C. E. Fractionation and characterization of organic matter in wastewater from a swine waste-retention basin http://pubs.water.usgs.gov/sir20045217/⟩ (accessed 12 March 2006)
  • Smolders , G. J.F. , van der Meij , J. , van Loosdrecht , M. C.M. and Heijnen , J. J. 1994 . Model of the anaerobic metabolism of the biological phosphorus removal process: stoichiometry and pH influence . Biotech. Bioeng. , 43 ( 6 ) : 461 – 470 .
  • Mino , T. , van Loosdrecht , M. C.M. and Heijnen , J. J. 1998 . Microbiological and biochemistry of the enhanced biological phosphate removal process . Water Sci.Tech. , 32 ( 11 ) : 3193 – 3207 .
  • Seviour , R. J. , Mino , T. and Onuki , M. 2003 . The microbiological of biological phosphorus removal in activated sludge systems . FEMS Microbiol. Rev. , 27 ( 1 ) : 99 – 127 .
  • Holman , J. B. and Wareham , D. G. 2003 . Oxidation-reduction potential as a monitoring tool in a low dissolved oxygen wastewater treatment process . J. Environ. Eng. , 129 ( 1 ) : 52 – 58 .
  • Heduit , A. and Thevenot , D. L. 1989 . Relation between redox potential and oxygen levels in activated-sludge reactors . Water Sci. Tech. , 21 : 947 – 956 .
  • Plisson-Saune , S. , Capdeville , B. , Mauret , M. , Deguin , A. and Baptise , P. 1996 . Real-time control of nitrogen removal using three ORP bending points: signification, control strategy and results . Water Sci. Tech. , 33 ( 1 ) : 275 – 280 .

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