Surface Chemistry Tuning Solutions for Flotation of Fine Particles

Karakashev, Stoyan I.; Grozev, Nikolay A.; Mircheva, Kristina; Ata, Seher; Bournival, Ghislain; Hristova, Svetlana H.; Özdemir, Orhan

doi:10.3390/min13070957

Cited by 2 publications

(1 citation statement)

References 45 publications

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“…Additionally, it was assumed that the sizes of both the bubble and the capillary tube coincided. Our previous results indicated that the bubble-particle attachment efficiency was proportional to the capillary pressure and the size of the bubble [32]. Therefore, the measurements were carried out with the smallest capillary size of 0.5 mm for the fine quartz particles.…”

Section: Bubble-particle Attachment Measurementsmentioning

confidence: 99%

Correlation of Flotation Recoveries and Bubble–Particle Attachment Time for Dodecyl Ammonium Hydrochloride/Frother/Quartz Flotation System

Batjargal,

Güven,

Ozdemir

et al. 2023

Minerals

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Recent studies in the flotation of fine particles have necessitated new techniques and analyses for developing various strategies. Particularly, the improvements in flotation chemistry including the selection of the type of frother, collector, and other reagents have become very significant. In this study, the effect of different commercial polypropylene glycol frothers (PPG200, 400, and 600) in the presence of dodecylammonium hydrochloride (DAH) was investigated for their contribution to flotation recoveries and bubble–particle attachment time values of fine quartz minerals. Zeta potential measurements with DAH were also carried out as a function of pH and reagent concentration to justify the effect of collector usage alone on the charge of particles. A linear increase in flotation recoveries against collector concentration, e.g., 7.4% recovery at 1 × 10−5 mol/L DAH and 65.4% recovery at 1 × 10−3 mol/L DAH, was obtained. In this context, the contribution of frothers was particularly important in that a recovery of 15.91% in the absence of the frother and a modest increase to 19.70% was obtained upon the addition of PPG600 at its critical coalescence concentration (CCC) of 3 ppm. Finally, a strong correlation was found between the bubble–particle attachment time and flotation recovery as a function of collector concentration (lowest attachment time vs. highest flotation recovery). The latter correlation is very promising because bubble attachment time leads to various micro-mechanisms in flotation including bubble film thinning, bubble rupture, and induction time, and consequently, frother efficiency in the presence and absence of a collector. As a result, the experimental findings were gathered to achieve a consistent base for further fundamental studies on the application of the synergistic effect of frothers and collectors in the flotation of fine particles.

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Section: Bubble-particle Attachment Measurementsmentioning

confidence: 99%