Glutamic acid leaching of synthetic covellite – A model system combining experimental data and geochemical modeling


Glutamic acid leaching of synthetic covellite – A model system combining experimental data and geochemical modeling

Barthen, R.; Karimzadeh, L.; Gründig, M.; Grenzer, J.; Lippold, H.; Franke, K.; Lippmann-Pipke, J.

For Kupferschiefer mining established pyrometallurgical and acidic bioleaching methods face numerous problems. This is due to the finely grained and dispersed distribution of the copper minerals, the complex mineralogy, comparably low copper content, and the possibly high carbonate and organic content in this ore. Leaching at neutral pH seemed worth a try: At neutral pH the abundant carbonates do not need to be dissolved and therewith would not consume excessive amounts of provided acids. Certainly, copper solubility at neutral pH is reduced compared to an acidic environment; however, if copper complexing ligands would be supplied abundantly, copper contents in the mobile phase could easily reach the required economic level. We set up a model system to study the effect of parameters such as pH, microorganisms, microbial metabolites, and organic ligands on covellite leaching to get a better understanding of the processes in copper leaching at pH ≥ 6. With this model system we could show that glutamic acid and the microbial siderophore desferrioxamine B promote covellite dissolution. Both experimental and modeling data showed that pH is an important parameter in covellite dissolution. An increase of pH from 6 to 9 could elevate copper extraction in the presence of glutamic acid by a factor of five. These results have implications for both development of a biotechnological process regarding metal extraction from Kupferschiefer, and for the interaction of bacterial metabolites with the lithosphere and potential mobilization of heavy metals in alkaline environments.

Keywords: Covellite; Glutamic acid; Desferrioxamine B; Modeling; Neutrophilic bioleaching; Copper

Permalink: https://www.hzdr.de/publications/Publ-23177
Publ.-Id: 23177