A novel approach to evaluating gravity pre-concentration amenability utilising the hydrodynamics of dense liquids in inclined channels

Lowes, C. P.; Zhou, J.; McGrath, T. D.; Eksteen, J. J.; Galvin, K. P.

Title: A novel approach to evaluating gravity pre-concentration amenability utilising the hydrodynamics of dense liquids in inclined channels
Creator: Lowes, C. P.; Zhou, J.; McGrath, T. D.; Eksteen, J. J.; Galvin, K. P.
Relation: Preconcentration Digital Conference 2020. Conference Proceedings Preconcentration Digital Conference 2020 (Online 10-11, 17-18 November, 2020) p. 130-140
Relation: https://www.ausimm.com/publications/conference-proceedings/preconcentration-digital-conference-2020/a-novel-approach-to-evaluating-gravity-pre-concentration-amenability-utilising-the-hydrodynamics-of-dense-liquids-in-inclined-channels/
Publisher: AusIMM
Resource Type: conference paper
Date: 2020
Description: Pre-concentration of low grade ores can improve the economic and environmental sustainability of an operation significantly, with opportunities for implementation ranging from run-of-mine to mill discharge depending on ore specific characteristics. For a gravity separation, where the performance is fundamentally constrained by mineral liberation, these feeds often represent a very difficult separation given the dominance of the relatively coarse gangue and fine liberation sizes. Thus, building knowledge of the feed through characterisation of the density distribution is critical to assessing amenability before progressing towards lab/pilot-scale test work and full-scale operation. The traditional approach to determining the density distribution typically involved sink/float testing, however, recent developments in hydrodynamic fractionation using inclined channels now offers a more cost-effective alternative with minimal health and environmental risk. A non-hazardous dense liquid, namely an aqueous solution of lithium heteropolytungstates (LST), is supplied as fluidisation to a REFLUXTM Classifier, consisting of a vertical section below a system of inclined channels, operating in semi-batch configuration. Fractionation is achieved by increasing the flow rate incrementally and collecting the particles to form a series of flow fractions. The purpose of this paper is to present this new method in the form of a case study, aimed at assessing the amenability of a low grade gold-bearing sulfide ore to pre-concentration. The robustness in the method is demonstrated through comparison with sink/float data, examining the density distribution and the liberation-limited product grade and recovery achievable. These data are then used as a benchmark to assess water-based continuous gravity separations conducted on the feed using a laboratory-scale REFLUXTM Classifier. This data set is used as the basis for process modelling and empirical validation for the recently established partition surface of the separator.
Subject: pre-concentration; low grade ores; hydrodynamics; dense liquids; gravity separation
Identifier: http://hdl.handle.net/1959.13/1479881
Identifier: uon:50403
Identifier: ISBN:9781925100938
Language: eng
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