Nano-microbubbles and Feed Size Interaction in Lead and Zinc Sulfide Minerals Flotation

Low recovery of the fully or highly liberated fine particles to the concentrate, and consequently, valuable loss to
the tailing is a challenge of flotation industry, majorly due to the low probability of bubble-particle collision.
Bubble size significantly affects the efficiency of collision. In this study, the effect of nano-micro bubbles and feed
particle size (d80s in the range of 80 to 12 µm), on the lead and zinc minerals recovery, separation efficiency, and
valuables loss to the tailings were investigated. The presence of NMBW simultaneously improved concentrate
grade and metal recovery to the individual concentrates. Over 14.5% improvements in either lead and zinc
recoveries, 0.95% and 2.22% enhancement in lead and zinc concentrate grades, and 15.6% and 8.9% increases in
lead and zinc separation efficiencies were, respectively, gained. The application of NMBW, however, reduced
metal loss to the tailings, more evident for the finest feed (order based on d100: -38>-75>-106 µm). By
increasing NMBW content to 100% of the pulp water, the metal loss to the tailing for the dry-ground feed with
the d80 of 12 µm, was decreased from 80.4% to 65.9% in the lead flotation, and from 54.9% to 43.2% in the zinc
flotation.