Control of the redox potential by oxygen limitation improves bacterial leaching of chalcopyrite

Control of the redox potential by oxygen limitation improves bacterial leaching of chalcopyrite

Shake flask and stirred tank bioleaching experiments showed that the dissolution of chalcopyrite is inhibited by ferric ion concentrations as low as 200 mg L−1 and redox potentials >420 mV (vs. Ag/AgCl). Chemical leaching of chalcopyrite (4% suspension, surface area 2.3 m2 g−1) was enhanced fourf...

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Veröffentlicht in:Biotechnology and bioengineering 2002-05, Vol.78 (4), p.433-441
Hauptverfasser: Third, K. A., Cord-Ruwisch, R., Watling, H. R.
Format: Artikel
Sprache:eng
Schlagworte:
Air
Bacteria - drug effects
Bacteria - growth & development
Bacteria - metabolism
Biohydrometallurgy. Microbial leaching
bioleaching
Biological and medical sciences
Bioreactors
Biotechnology
chalcopyrite
computer-control
Copper - analysis
Copper - metabolism
Equipment Design
Feedback
Fermentation
Ferric Compounds - metabolism
Ferric Compounds - pharmacology
Ferrous Compounds - metabolism
Ferrous Compounds - pharmacology
Fundamental and applied biological sciences. Psychology
Hydrogen-Ion Concentration
Industrial applications and implications. Economical aspects
Models, Chemical
Oxidation-Reduction
Oxygen - metabolism
oxygen limitation
potentiostat
redox-controlled-process
Sensitivity and Specificity
Time Factors
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Zusammenfassung:Shake flask and stirred tank bioleaching experiments showed that the dissolution of chalcopyrite is inhibited by ferric ion concentrations as low as 200 mg L−1 and redox potentials >420 mV (vs. Ag/AgCl). Chemical leaching of chalcopyrite (4% suspension, surface area 2.3 m2 g−1) was enhanced fourfold in the presence of 0.1 M ferrous sulphate compared with 0.1 M ferric sulphate. A computer‐controlled reactor was designed to function as a “potentiostat”‐bioreactor by arresting the air supply to the reactor when the redox potential in solution was greater than a designated setpoint. Leaching at a low, constant redox potential (380 mV vs. Ag/AgCl) achieved final copper recoveries of 52%–61%, which was twice that achieved with a continuous supply of oxygen (
ISSN:0006-3592
1097-0290
DOI:10.1002/bit.10184