Abstract
In currently used mining methods, blasting techniques often causes dilution of valuable ore and results in costly processing requirements. In the context of narrow vein mining of thin and highly concentrated orebodies there is a need of a mining method that can reduce dilution in order to remain economically viable. This research project explored the viability of a new mining technology, thermal fragmentation, in narrow vein mining. Thermal fragmentation technology uses a flame jet to produce extreme heat that spalls the surrounding rock to a strategically located drill hole, as an alternative to traditional blasting. This paper creates a net present value (NPV) model of a mining method using thermal fragmentation, as well as for an existing method used for narrow vein mining; comparisons and evaluations were made regarding the feasibility of the new technology. It was found that while overall costs for thermal fragmentation were relatively high, reductions in wages, haulage and processing costs, as well as increased productivity and ore recovery, meant that the new method would improve the financial performance of any operation. These results identify that there is an opportunity to introduce the thermal fragmentation technology to narrow vein mines within Australia, in order to lower costs and increase profit.
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The authors would like to acknowledge the support provided by the Federation University, Australia, in the preparation and dissemination of this article to the mining community.
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Bouwmeester, P., Tuck, M., Koroznikova, L. et al. Thermal Fragmentation as a Possible, Viable, Alternative Mining Method in Narrow Vein Mining?. Mining, Metallurgy & Exploration 37, 605–618 (2020). https://doi.org/10.1007/s42461-019-00155-y
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DOI: https://doi.org/10.1007/s42461-019-00155-y