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Two approaches for the use of the Electric Pulse Fragmentation (EPF) in the beneficiation of a lowgrade cassiterite schist ore were investigated through pilot-scale tests performed on samples of about 270 kg. The first approach used EPF treatment for pre-concentration while in the second approach the EPF technology was mostly used for crushing. Comparison with the use of conventional crushers was performed.Results showed that the EPF pre-treatment led to a decrease of the Bond rod mill work index while the Bond ball mill work index remained unchanged. This means that the decrease in the energy consumption requested to grind the material down to 1.18 mm (closing screen of the Bond rod mill work index) is no longer noticeable with additional grinding stage to reach a size down to 106 µ m (closing screen of the Bond ball mill work index).This may be due to the fracture network generated during EPF being consumed immediately in the ⁎ Corresponding author.i The corrections made in this section will be reviewed and approved by journal production editor. subsequent comminution step. Alternatively, it may be that the Bond ball mill work index is not appropriate for exhibiting the weakening effect of the EPF technology when the mineral liberation size is coarser than the closing screen size used for the test. Concentration tests performed on the sample treated with the first approach for EPF showed no marked change in separation performance. However, a higher concentrate grade was obtained when using this EPF pretreatment, indicating a probable potential for improvement.

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Reductive leaching behaviour of manganese and cobalt phases in laterite and manganese ores

Moro

Haubrich

Martin

et al. 2023

Hydrometallurgy

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“CO2RINA”—CO2 Storage Risk Integrated Analysis

Kahnt

Kutzke

Martin

et al. 2015

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Mirko Martin

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Pilot-scale investigation of two Electric Pulse Fragmentation (EPF) approaches for the mineral processing of a low-grade cassiterite schist ore

Reductive leaching behaviour of manganese and cobalt phases in laterite and manganese ores

“CO2RINA”—CO2 Storage Risk Integrated Analysis

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