Bioleaching of Low-Grade Chalcopyrite Ore by the Thermophilic Archaean Acidianus brierleyi

Norizoh Saitoh; Toshiyuki Nomura; Yasuhiro Konishi

doi:10.4028/www.scientific.net/SSP.262.237

Paper Titles

Microbial Survey on Industrial Bioleaching Heap by High-Throughput 16S Sequencing and Metagenomics Analysis
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Preliminary Study on In Situ Realtime Quantitation of Target Bacteria on the Principle of Flow Cytometry
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Investigating the Microbial Metabolic Activity on Mineral Surfaces of Pyrite-Rich Waste Rocks in an Unsaturated Heap-Simulating Column System
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The Impact of Heap Self-Heating on Microbial Activity during the Bioleaching of Low-Grade Copper Sulfide Ores
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Bioleaching of Low-Grade Chalcopyrite Ore by the Thermophilic Archaean Acidianus brierleyi
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Influence of CO₂ Supplementation on the Bioleaching of a Copper Concentrate from Kupferschiefer Ore
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Unravelling the Complexity of Heap Bioleaching
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Copper Heap Bioleach Microbiology - Progress and Challenges
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Microbial Dissolution of Iron Surface Coatings in Industrial Minerals
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HomeSolid State PhenomenaSolid State Phenomena Vol. 262Bioleaching of Low-Grade Chalcopyrite Ore by the...

Bioleaching of Low-Grade Chalcopyrite Ore by the Thermophilic Archaean Acidianus brierleyi

Abstract:

The thermophilic archaean, Acidianus brierleyi, was examined for its feasibility to bioleach copper from a low-grade chalcopyrite ore (1.15 % copper, 20.4 % iron and 2.63 wt% sulfur) at 65°C and pH 1.8-2.5. The chalcopyrite leaching was markedly accelerated in the presence of A. brierleyi, and an extremely high 80% leaching of copper in the low-grade ore (25-38 μm particles) was achieved in 14 days in a batch stirred reactor. By comparison, the leaching of iron was very slow and only a slight 5 % iron was leached in 14 days in the presence or absence of A. brierleyi. In other words, A. brierleyi selectively leached chalcopyrite while magnetite leaching by A. brierleyi was negligible. Moreover, bioleaching of the low-grade ore (53-75 μm particles) yielded 55% copper recovery after 20 days of operation in a column reactor. The good results for the copper bioleaching in the column reactor are very similar to those in the stirred reactor. These results lead to the conclusion that the thermophile bioleaching with A. brierleyi is attractive as an economical and environmentally friendly process for good copper extraction from low-grade chalcopyrite ore.

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Periodical:

Solid State Phenomena (Volume 262)

Pages:

237-241

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.262.237

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Online since:

August 2017

Authors:

Norizoh Saitoh, Toshiyuki Nomura, Yasuhiro Konishi*

Keywords:

Acidianus brierleyi, Acidophilic Thermophile, Bioleaching, Chalcopyrite, Iron Oxide Copper Gold (IOCG) Ore, Low-Grade Copper Ore

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