Publication Details

Category Text Publication
Reference Category Book chapters
DOI 10.4028/www.scientific.net/AMR.1130.321
Title (Primary) Bioreactor process optimization for bioleaching of fine-grained residues from copper smelting
Title (Secondary) Biotechnologies in mining industry and environmental engineering
Author Klink, C.; Heim, J.; Daus, B.; Eisen, S.; Schlömann, M.; Schopf, S.
Publisher Mubarok, M.Z.; Chaerun, S.K.; Minwal, W.P.; Muhammad, F.; Pratama, K.
Source Titel Advanced Materials Research
Year 2015
Department ANA
Volume 1130
Page From 321
Page To 324
Language englisch
Keywords strategic elements, fly ashes, acidophiles; bioleaching
UFZ wide themes RU4;
Abstract Theisen sludge, a fine-grained by-product from copper smelting is a secondary resource for the winning of strategic elements by metal-oxidizing acidophilic bacteria. Screening for cultures, that grew in presence of the toxic heavy metals containing fly ash was successfully performed. Small scale experiments in shaking flasks with subsequent analysis of the pregnant leaching solution (PLS) revealed biological extraction of the major (zinc and copper) and minor metals (cobalt and rhenium). Results were confirmed by XRF analyses of the leaching residue. The bioleaching approach was up-scaled in stirred tank bioreactors under controlled conditions. Optimization of metal-extraction rates will be achieved by regulation of process-parameters,
predominantly the redox-potential.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=16853
Klink, C., Heim, J., Daus, B., Eisen, S., Schlömann, M., Schopf, S. (2015):
Bioreactor process optimization for bioleaching of fine-grained residues from copper smelting
In: Mubarok, M.Z., Chaerun, S.K., Minwal, W.P., Muhammad, F., Pratama, K. (eds.)
Biotechnologies in mining industry and environmental engineering
Advanced Materials Research 1130
Trans Tech Publications, Durnten-Zurich, p. 321 - 324 10.4028/www.scientific.net/AMR.1130.321