High rate sulfate reduction at pH 6 in a pH-auxostat submerged membrane bioreactor fed with formate

Water Research

Volumn 42, Issue 10-11, 2008, Pages 2439-2448

  Bijmans, Martijn F M ^a   Peeters, Tom W T ^a   Lens, Piet N L ^a   Buisman, Cees J N ^a  

^a WAGENINGEN UNIVERSITY   (Netherlands)

Author keywords

Formate; High rate; Membrane bioreactor; pH auxostat; Sulfate reduction

Indexed keywords

BACTERIA; BIOREACTORS; CONCENTRATION (PROCESS); PH EFFECTS;

MEMBRANE BIOREACTOR; PH-AUXOSTAT; SULFATE REDUCTION;

WASTEWATER TREATMENT;

FORMIC ACID; SULFATE;

BACTERIA; BIOREACTORS; CONCENTRATION (PROCESS); PH EFFECTS; WASTEWATER TREATMENT;

BIOREACTOR; BIOTRANSFORMATION; CONCENTRATION (COMPOSITION); INDUSTRIAL WASTE; MEMBRANE; MICROBIAL COMMUNITY; PH; REDUCTION; SULFATE; SULFATE-REDUCING BACTERIUM; WASTE TREATMENT; WASTEWATER;

ACIDITY; ARTICLE; BATCH REACTOR; BIOREACTOR; ELECTRON; INDUSTRIAL WASTE; INOCULATION; MEMBRANE REACTOR; MICROBIAL BIOMASS; MICROBIAL COMMUNITY; MICROBIAL GROWTH; NONHUMAN; PH; PRIORITY JOURNAL; REDUCTION; SULFATE REDUCING BACTERIUM; SUSPENDED PARTICULATE MATTER; VOLUMETRY; WASTE WATER; WASTE WATER MANAGEMENT;

EID: 43049137272     PISSN: 00431354     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.watres.2008.01.025     Document Type: Article

References (25)

1. J.P. Amend E.L. Shock Energetics of overall metabolic reactions of thermophilic and hyperthermophilic Archaea and bacteria FEMS Microbiol. Rev. 25 2001 175 243
2. 2 or formate uptake Appl. Environ. Microbiol. 55 1989 1735 1741
3. C.J.N. Buisman G. Lettinga Sulphide removal from anaerobic waste treatment effluent of a papermill Water Res. 24 1990 313 319
4. L.S. Clesceri A.E. Greenberg A.D. Eaton Standard methods for the examination of water and wastewater 20th ed 1998 American Public Health Association Washington, DC
5. E. Colleran S. Finnegan P. Lens Anaerobic treatment of sulphate-containing waste streams Antonie van Leeuwenhoek (Histor. Arch.) 67 1995 29 46
6. P. Gostomski M. Muhlemann Y.H. Lin R. Mormino H. Bungay Auxostats for continuous culture research J. Biotechnol. 37 1994 167 177
7. A.J.H. Janssen G. Lettinga A. de Keizer Removal of hydrogen sulphide from wastewater and waste gases by biological conversion to elemental sulphur: colloidal and interfacial aspects of biologically produced sulphur particles Colloids Surf. A Physicochem. Eng. Aspects 151 1999 389 397
8. K. Kawazuishi J.M. Prausnitz Correlation of vapor–liquid equilibria for the system ammonia–carbon dioxide–water Ind. Eng. Chem. Res. 26 1987 1482
9. P.N.L. Lens R. Klijn J.B. van Lier G. Lettinga Effect of specific gas loading rate on thermophilic (55 °C) acidifying (pH 6) and sulfate reducing granular sludge reactors Water Res. 37 2003 1033 1047
10. S. Moosa S.T.L. Harrison Product inhibition by sulphide species on biological sulphate reduction for the treatment of acid mine drainage Hydrometallurgy 83 2006 214
11. V. O’Flaherty T. Mahony R. O’Kennedy E. Colleran Effect of pH on growth kinetics and sulphide toxicity thresholds of a range of methanogenic, syntrophic and sulphate-reducing bacteria Process Biochem. 33 1998 555 569
12. P.L. Paulo R. Kleerebezem G. Lettinga P.N.L. Lens Cultivation of high-rate sulfate reducing sludge by pH-based electron donor dosage J. Biotechnol. 118 2005 107 116
13. V. Peters P.H. Janssen R. Conrad Transient production of formate during chemolithotrophic growth of anaerobic microorganisms on hydrogen Curr. Microbiol. 38 1999 285 289
14. M.A.M. Reis J.S. Almeida P.C. Lemos M.J.T. Carrondo Effect of hydrogen sulfide on growth of sulfate reducing bacteria Biotechnol. Bioeng. 40 1992 593
15. J. Sipma P. Lens A. Vieira Y. Miron J.B. van Lier L.W. Hulshoff Pol G. Lettinga Thermophilic sulphate reduction in upflow anaerobic sludge bed reactors under acidifying conditions Process Biochem. 35 1999 509 522
16. J. Sipma R.J.W. Meulepas S.N. Parshina A.J.M. Stams G. Lettinga P.N.L. Lens Effect of carbon monoxide, hydrogen and sulfate on thermophilic (55 °C) hydrogenogenic carbon monoxide conversion in two anaerobic bioreactor sludges Appl. Microbiol. Biotechnol. 64 2004 421 428
17. A. Stams J. Van Dijk C. Dijkema C. Plugge Growth of syntrophic propionate-oxidizing bacteria with fumarate in the absence of methanogenic bacteria Appl. Environ. Microbiol. 59 1993 1114 1119
18. J.H. Thiele J.G. Zeikus Control of interspecies electron flow during anaerobic digestion: significance of formate transfer versus hydrogen transfer during syntrophic methanogenesis in flocs Appl. Environ. Microbiol. 54 1988 20 29
19. M.V.G. Vallero G. Lettinga P.N.L. Lens High rate sulfate reduction in a submerged anaerobic membrane bioreactor (SAMBaR) at high salinity J. Membr. Sci. 253 2005 217 232
20. R.T. van Houten L.W. Hulshoff Pol G. Lettinga Biological sulphate reduction using gas-lift reactors fed with hydrogen and carbon dioxide as energy and carbon source Biotechnol. Bioeng. 44 1994 586 594
21. R.T. van Houten S.J.W.H.O. Elferink S.E. van Hamel L.W.H. Pol G. Lettinga Sulphate reduction by aggregates of sulphate-reducing bacteria and homo-acetogenic bacteria in a lab-scale gas-lift reactor Bioresour. Technol. 54 1995 73 79
22. J. Weijma A.J.M. Stams L.W. Hulshoff Pol G. Lettinga Thermophilic sulfate reduction and methanogenesis with methanol in a high rate anaerobic reactor Biotechnol. Bioeng. 67 2000 354 363
23. J. Weijma C.F.M. Copini C.J.N. Buisman C.E. Schultz Biological recovery of metals, sulfur and water in the mining and metallurgical industy P.N.L. Lens L. Hulshoff Pol Water Recycling and Resource Recovery in Industry: Analysis, Technologies and Implementation 2002 IWA Publishing 605 625
24. 2 between sulfate reducers, methanogens and homoacetogens in a gas-lift reactor Water Sci. Technol. 45 2002 75 80
25. F. Widdel Microbiology and ecology of sulfate- and sulfur-reducing bacteria A.J.B. Zehnder Biologly of Anaerobic Microorganisms 1988 Wiley New York 469 586