Abstract
Alunite is the main non-bauxite source of aluminum. Due to the low Degrees Of Freedom (DOF) of alunite, froth flotation, as a pre-concentration method, is a viable alternative to increase selectivity in downstream processes. The current study was aimed at investigating the pre-concentration of alunite using micro-flotation. In the first step, an optical microscope studies were done to determine DOF of alunite. In the next step, flotation tests were designed. The experiments were performed based on the surface charge differential between alunite and quartz using direct and reverse flotation. In the reverse flotation, Ca+2 and Ba+2 were used to activate the quartz surface. Anionic collector was used to float the gangue minerals. The highest grade and recovery using reverse flotation were 34.96 and 81.33%, respectively. In the direct flotation, the surface of alunite was activated using Ba2+, Ca2+ and F-. The optimum condition was achieved using F- as an alunite activator for particles ranged -37+25 µm with the grade of 31.47%. The grade and recovery were 50 and 89%, respectively. All experiments were conducted in Hallimond Tube. During the experiments, several parameters were controlled.
Highlights
Aluminum is the most abundant metal element and the third most abundant element on the earth
The particle with sizes -25 μm has the highest grade and Degree Of Freedom (DOF), but they are not appropriate for flotation tests. In this series of experiments, a number of flotation tests were performed on -37+25 μm size fraction because DOF for this fraction is around 60%
Particle sizes are suitable for the flotation process (Alunite grade is 31.43%)
Summary
Aluminum is the most abundant metal element and the third most abundant element on the earth. This metal because of its unique properties has high consumption in a wide variety of industries such as aerospace, building industries, transportation and consumer goods (Tabereaux and Peterson, 2014; Russell, 1981; Eshkalak et al, 2020). One of the main sources to extract aluminum is bauxite. Discovering and exploiting, extracting and processing of alternative sources have significant importance for the industries to provide their aluminum demands. All mentioned reasons have encouraged researchers around the world to find the solutions for this challenge
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