Investigation of the effects of particle size on the performance of classical gravity concentration equipment

The use of gravity concentrators involves several challenges, such as determination of the liberation sizes of the minerals, selection of appropriate particle sizes for the applied concentration method, and the severity of the beneficiation of fines.In this study, the effects of fully liberated (artificial mixtures of magnetite and quartz) and non-liberated particles (chromite ore collected from a chromite processing plant) on various gravity concentration equipment were investigated as a function of particle size considering recoveries, separation efficiencies, and grades of products. A series of tests were conducted on shaking tables, spiral concentrators, and a Falcon concentrator with different design features under various operating conditions. Finally, the separation efficiencies were correlated with the settling rates of the particles.The test results confirmed a certain trend in the separation efficiency as a function of particle size for each condition. The separation efficiency initially increased with increasing particle size, peaked, and eventually decreased with increasing particle size. The maximum separation efficiency attained was 90% for 141 mu m particles in the shaking table and 54% for 245 mu m particles in the Falcon concentrator, both of which were used to treat the artificial feed. In the spiral concentrator, which treated chromite ore as feed, the maximum separation efficiency attained was 82% for 178 mu m particles.This experimental study provides data to identify the concentration behavior of particles by investigating possible separation mechanisms. Consequently, it provides an understanding of the relationships between particle size and separation efficiency in terms of settling rates, especially in spiral concentrators.

Automated summary

The use of gravity concentrators presents challenges such as determining liberation sizes, selecting appropriate particle sizes, and optimizing fine beneficiation. This study investigates the effects of liberated and non-liberated particles on different gravity concentration equipment, focusing on particle size and its impact on recoveries, separation efficiencies, and product grades. The test results show a certain trend in separation efficiency based on particle size, with increasing efficiency initially before decreasing. The study provides valuable data on particle concentration behavior and the relationship between particle size and separation efficiency, particularly in spiral concentrators.