Enhancing gravity separation for improved mineral processing
Ram Chandra Chaurasia, Deepak Singh Panwar, Bhupendra Singh Ken, Jigesh Mehta, Ankit D. Oza, Sandeep Kumar, Rahul Kumar, Vijayendra A. Desai
Abstract
In order to produce valuable minerals and gangue, mineral processing primarily entails the separation of minerals through specific unit operations and processes, which are often characterized by physical and chemical separation. For the concentration of fine heavy minerals with particle sizes as small as 0.5 mm, gravity separation techniques have been shown to be the most effective and cost-effective method; below this size, the effectiveness of separation decreases significantly in the absence of external pressures. This is without a doubt one of the most well-known and traditional methods in mineral processing for separating a wide range of minerals with densities ranging from the highest 7.50 (like galena) to the lowest 1.30 (typical of coal). Many gravity separators that utilize the density difference feature are currently accessible thanks to recent technological advancements. It has been noted that new technologies are being developed to separate minerals with fine and ultrafine sizes using air, water, and heavy fluids or media for enrichment. Some gravity separators were investigated in the current study, and some are now in use in pilot plants, industries, and have been suggested as ways to improve gravity separators.