Add to ORKGThermophiles have been shown to be the only micro-organisms to leach chalcopyrite successfully. Heap leaching may be a feasible alternative to conventional bio-reactors, providing a high temperature environment can be maintained within the heap without external heating. In the present study thermophilic heap leaching of a chalcopyrite concentrate coated onto inert support rocks (the GEOCOAT™ process) was studied in sets of small heated columns. The temperature was gradually increased to 70 °C, while successively introducing various mesophile and thermophile cultures. Individual columns were dismantled after progressively longer leach periods and the residual concentrates analysed. Copper extractions in excess of 90% were achieved within 10...
It is well known that the leaching of chalcopyrite under ambient conditions is extremely slow even u...
High-grade natural chalcocite (Cu2S) was leached in column under controlled redox potential (Eh). ...
The effects of temperature on chalcocite/pyrite oxidation and the microbial population in the biolea...
Thermophiles have been shown to be the only micro-organisms to leach chalcopyrite successfully. Heap...
The extraction of copper from chalcopyrite has for centuries been limited to pyrometallurgical metho...
In this study, the GEOCOAT process was evaluated as a low cost alternative for chalcopyrite bioleac...
The application of thermophilic bacteria to the leaching of a chalcopyrite (CuFeS2) concentrate fro...
An experimental study was conducted to investigate the heap bioleaching of a copper-gold concentrate...
Bioheap leaching of low grade copper sulphides has been applied successfully at the commercial scale...
Bioheap leaching of low grade copper sulphides has been applied successfully at the commercial scale...
Bioleaching of chalcopyrite is only possible in the presence of thermophilic micro-organisms. While ...
Bacterial leaching utilises bacteria, ubiquitous to sulphide mining environments to oxidise sulphide...
Temperatures in excess of 60 °C are required for efficient bioleaching of chalcopyrite. Within heaps...
Understanding the dissolution of copper from chalcopyrite is important as chalcopyrite is the most a...
The effects of temperature on chalcocite/pyrite oxidation and the microbial population in the biolea...
It is well known that the leaching of chalcopyrite under ambient conditions is extremely slow even u...
High-grade natural chalcocite (Cu2S) was leached in column under controlled redox potential (Eh). ...
The effects of temperature on chalcocite/pyrite oxidation and the microbial population in the biolea...
Thermophiles have been shown to be the only micro-organisms to leach chalcopyrite successfully. Heap...
The extraction of copper from chalcopyrite has for centuries been limited to pyrometallurgical metho...
In this study, the GEOCOAT process was evaluated as a low cost alternative for chalcopyrite bioleac...
The application of thermophilic bacteria to the leaching of a chalcopyrite (CuFeS2) concentrate fro...
An experimental study was conducted to investigate the heap bioleaching of a copper-gold concentrate...
Bioheap leaching of low grade copper sulphides has been applied successfully at the commercial scale...
Bioheap leaching of low grade copper sulphides has been applied successfully at the commercial scale...
Bioleaching of chalcopyrite is only possible in the presence of thermophilic micro-organisms. While ...
Bacterial leaching utilises bacteria, ubiquitous to sulphide mining environments to oxidise sulphide...
Temperatures in excess of 60 °C are required for efficient bioleaching of chalcopyrite. Within heaps...
Understanding the dissolution of copper from chalcopyrite is important as chalcopyrite is the most a...
The effects of temperature on chalcocite/pyrite oxidation and the microbial population in the biolea...
It is well known that the leaching of chalcopyrite under ambient conditions is extremely slow even u...
High-grade natural chalcocite (Cu2S) was leached in column under controlled redox potential (Eh). ...
The effects of temperature on chalcocite/pyrite oxidation and the microbial population in the biolea...