Liquid distribution in drip irrigated heap bioleaching of ore and its influence on microbial colonization
Conference Paper
2016-08-22
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International Mineral Processing
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University of Cape Town
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International Mineral Processing Congress
Abstract
Heap bioleaching is an unsaturated hydrometallurgical extraction process which is commonly applied to
the recovery of copper from low grade sulfide ores as well as for preparatory treatment of gold ores. The
leaching reactions occur in the liquid phase, catalysed by iron and/or sulfur oxidising micro-organisms.
Contact of the mineral grains with the leaching solution is consequently essential for metal recovery.
Additionally, the liquid is responsible for the transport of the liberated metal out of the heap under
gravitation-driven flow. However, the highly inhomogeneous structure of the heaps coupled with low
irrigation rates cause the flow to vary between being gravitationally and capillary dominated, resulting in
non-uniform wetting of the ore.
In this study a 132 kg agglomerated ore ‘slice’ is used to examine the effect of liquid distribution on
microbial colonisation and mineral recovery in a long term bioleach (> 500 days) when irrigation from a
single drip emitter source is employed. The novel setup enabled sample collection from ports positioned
along the length and height of the ore bed, so that 2D maps of the degree of wetting and microbial
colonisation could be generated at different times in the leach. Lateral movement of the liquid increased
with bed depth; the majority of flow was below the irrigation point while the top corner of the bed that
was not irrigated remained the driest region of the heap throughout the experiment duration. The lowest
cell numbers were also recorded in the driest regions. Specifically, cell numbers in the top corner of the
bed, 400mm from the irrigation point, remained at undetectable levels until the 283rd day measurement, in
line with typical heap operation durations. This indicates that slow colonisation of the heap in the regions
between irrigation points may be a significant issue in heap optimisation.
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Reference:
Fagan, M. A., Ngoma, E., Chiume, R. A. & Harrison, S. T. L. 2014. Liquid distribution in drip irrigated heap bioleaching of ore and its influence on microbial colonization. Proceedings of 27th International Mineral Processing Congress. 20 - 24th October. Santiago: Chile.