Abstract
The floatability of fine low-rank coal particles can be greatly influenced by their morphological characteristics, such as shape and surface roughness. In this study, the attachment efficiency and detachment amplitude of fine low-rank coal particles produced by various comminution methods onto/from the bubble surface were investigated using homemade bubble–particle wrap angle and bubble–particle attachment/detachment testing systems. Results showed that the length–diameter ratio of rod-milled products was smaller than that of crushed products. The wrap angle of particles obtained by the crushed method was larger than that obtained by the rod-milled method, i.e., particles with greater length–diameter ratio showed higher attachment efficiency onto the bubble surface. Meanwhile, particles with greater length–diameter ratio exhibited a larger detachment amplitude, which suggests that it is more difficult to be detached from the bubble surface. However, rod-milled products showed lower attachment onto the bubble surface. The flotation test confirmed that the floatability ratio of crushed products was higher than that of rod-milled products, consistent with evidence from experimental analyses. This study provides a fundamental understanding of particle shapes for low-rank coal flotation by a novel research method combining the attachment efficiency and detachment amplitude of bubble–particle combinations.
Highlights
Froth flotation, which utilizes the differences in floatability between valuable minerals and other particles, is the most economical mineral processing method used to separate fine mineral particles from gangue
The length–diameter ratio of rod-milled products is 2.101, whereas whereas that of crushed products is 2.224, which means that rod-milled low-rank coal particles are that of crushed products is 2.224, which means that rod-milled low-rank coal particles are closer to closer to spherical particles, and crushed low-rank coal particles are closer to long strips
The influence of the shape of fine low-rank coal particles produced by different comminution
Summary
Froth flotation, which utilizes the differences in floatability between valuable minerals and other particles, is the most economical mineral processing method used to separate fine mineral particles from gangue. With respect to the interaction between bubbles and particles in an aqueous solution, the flotation process is composed of three main sub-processes: collision, attachment, and detachment. The efficiencies of these sub-processes are responsible for the overall flotation efficiency [1,2,3,4]. The efficiency of collision is mostly affected by the hydrodynamic conditions of the flotation process, while the efficiency of bubble–particle attachment/detachment is very important for flotation. It should be noted that the attachment efficiency is largely influenced by the surface properties of mineral particles [2].
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