Enhanced Gravity Recovery of Base Metal and Industrial Minerals
Written By: Team Sepro | Date: 13.08.19
Met-Solve Laboratories has released a new paper published by Ish Grewal and Andrew Neale. One of the main areas of focus of this paper was the recovery of fine particles using high-G centrifugal gravity concentrators. Results demonstrated that it was possible to achieve high grades and recoveries in the sub 25 micron particle size ranges.The post Enhanced gravity recovery of base metal and industrial minerals appeared first on International Mining.
Paper Abstract – Enhanced Gravity Recovery of Base Metal and Industrial Minerals
Mineral separation by exploiting the differences in mineral or metal specific gravities (sg) has been used since antiquity. In the modern era, this is most commonly seen in the recovery of gold by the use of centrifugal concentrators and the separation of coal (low sg) from waste rock (high sg) using heavy media cyclones and jigs. Other metals, notably oxides of tin and tungsten, are successfully recovered using some combination of jigs, spirals and shaking tables. However, many conventional gravity separation systems are limited to fairly coarse (>1 mm) to medium (>100 micron) particle separations due to the limitations of the gravitational separation forces in conventional equipment.
Many of the high specific gravity minerals of interest are friable (e.g. cassiterite, wolframite, etc.) and excessive fines are generated in the grinding/comminution circuits which cannot be recovered with conventional equipment and may be lost directly to the tailings stream. Recent developments in centrifugal gravity separation equipment specifically designed for fine or ultra-fine particle separation and recovery have resulted in heavy mineral particle recoveries as fine as 10-20 microns. Ongoing research work has also identified the benefit of closed-circuit, multi-stage gravity recovery circuits using some combination of centrifugal concentrators and conventional equipment (tables, spirals, flotation, etc.) which can substantially increase overall plant recovery and final concentrate grade.
This paper will provide details of the evolution of non-fluidized bed gravity concentrators for high sg mineral recoveries, correlate laboratory scale development work with plant results to confirm scale-up, and show how recent flowsheet developments have contributed to significantly improved plant performance.
Please contact Sepro Laboratories to access the full paper.