Sorting the future? Possibilities at Obuasi Mine

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Anyimadu, Appeah Owusu, Peattie, Chamberlain, Aniawu – Asumakah

Presented at the Preconcentration Digital Conference November 2020

ABSTRACT

This is an integrated geology and plant improvement study arising from the heterogeneity seen in mineralogy and gold association at the Obuasi goldmine in Ghana. This heterogeneity comes from the two ore types mined, the one being a sulphide ore, mainly composed of gold-bearing arsenopyrites. This gold is refractory and exhibits a strong relationship between gold and As. The other is quartz veins, that are high grade and free milling.

The installed circuit consists of comminution – Gravity -Flotation – BIOX – Leaching and Adsorption processes. The opportunity tested involved improved mass pull - related flotation recovery of Au in the Sulphide stream; while balancing the need for a minimum Sulphide grade for the Bio-oxidation process, occasioned by the removal of 25 to 30 % of the (quartz) stream through preconcentration by Ore sorting. The current circuit is then utilized for the sulphide route, while a smaller grind-gravity circuit is utilised for the quartz stream in a relatively inexpensive way, followed by a common leaching and adsorption circuit. Added advantages of the strategy includes faster recovery of gold from the quartz stream, with less consumption of reagents from saving on flotation and BIOX reagents for this stream.

Screening and Ore sorting was successfully tested with laser technology, achieving over 98% separation of quarts (containing up to 40% of the gold). The plant schedule of Ore, the suggested circuit design for the Ore sorting, the results obtained from the different flotation regimes, as well as consequent financial modelling have been presented and discussed in this paper. This illustrates the opportunity that arises out of a detailed analysis of material versus installed circuits, even if the gains in pre-concentration do not necessarily involve rejection of gangue material.
An added opportunity for future investigation, briefly discussed but not tested in this paper, would be to maintain current mass pulls but with increase in throughput (by the space created by the sorted material). This will of course require the mining ability. It could also add LOM value by altering the cut-off grade.

AUTHORS

Anyimadu, A1, Appeah Owusu, M2, Peattie, R3, Chamberlain, V4, and Aniawu – Asumakah, M5


1. Group Principal Metallurgist, AngloGold Ashanti, Johannesburg, 2001. Email:This email address is being protected from spambots. You need JavaScript enabled to view it.
2. Senior Geologist, AGA Obuasi Mine, Obuasi, Ghana. Email:This email address is being protected from spambots. You need JavaScript enabled to view it.
3. Senior Vice President, STG, AngloGold Ashanti, Johannesburg 2001. Email:This email address is being protected from spambots. You need JavaScript enabled to view it.
4. Senior Manager Geology, AGA Obuasi Mine, Obuasi, Ghana. Email:This email address is being protected from spambots. You need JavaScript enabled to view it.
5. Plant Metallurgical Specialist, AGA Obuasi Mine, Obuasi Ghana. Email:This email address is being protected from spambots. You need JavaScript enabled to view it.

Corresponding author - E-mail address: This email address is being protected from spambots. You need JavaScript enabled to view it.

ACKNOWLEDGEMENTS

The authors acknowledge the leadership of AGA and Obuasi Mine for granting the permission to publish this paper, and Redeemina Comfort Bonnah for assisting with editing.

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