Trends in application of industrial sulfate reduction for sulfur and metal recycling

Proceedings - European Metallurgical Conference, EMC 2007

Volumn 1, Issue , 2007, Pages 383-389

  Buisman, C J N ^a   Huisman, J ^a   Dijkman, H ^a   Bijmans, M F M ^a  

^a WAGENINGEN UNIVERSITY   (Netherlands)

Author keywords

Biological wastewater treatment; Sulfate reducing bacteria; Sulfur dioxide; Sulphide precipitation; Waste effluent treatment

Indexed keywords

EID: 76749159975     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (5)

1. Bhattacharyya, D., Jumawan, A.B., Sun, G., Sund-Hagelberg, C., Schwitzgebel, K., in: Bennett, G. F. (ed.) Water-1980, AIChE Symposium Series, 77, American Institute of Chemical Engineering, New York (1981), 31-38.
2. Van Houten, R.T.; Oude Elferink, S. J. W. H.; van Hamel S. E.; Hulshoff Pol, L. W.; Lettinga, G. (1995) Sulphate reduction by aggregates of sulphate-reducing bacteria and homo-acetogenic bacteria in a lab-scale gas-lift bioreactor, Bioressource Technology 54 (1995) 73-79
3. Stams A. J. M.; Buisman C. J. N.; Dijkman H.; De Vos W. M. (2005) process for anaerobic oxidation of methane, Patent
4. Nauhaus (2006) In vitro cell growth of marine archaeal-bacterial consortia during anaerobic oxidation of methane with sulfate, Environmental microbiology, in press
5. Kimura, S.; Johnson D. B.; Hallberg, K. D. (2006) Sulfidogenesis in low pH (3.8-4.2) media by a mixed population of acidophilic bacteria. Biodegradation 17 (2), pp. 159-167