The effect of air flow rate on the kinetics of flotation. Part 1: The transfer of material from the slurry to the froth |
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| Authors: | AR Laplante JM Toguri HW Smith |
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| Institution: | 1. Department Mining and Metallurgical Engineering, McGill University, Montreal, Queb. H3A 2A7 Canada;2. Department Metallurgy and Materials Science, University of Toronto, Toronto, Ont. M5S 1A4 Canada |
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| Abstract: | Bubble size distributions and flotation rates were determined as a function of air flow rate and frother concentration using a specially designed batch flotation cell. This cell permitted the unambiguous determination of the flotation rate from the slurry to the froth.Flotation rate constants were determined for different size classes of silica and galena. The flotation rate constants increased to a maximum and then decreased as air flow rate was increased. This maximum was predicted by a model which considered the effect of bubble size on both the total bubble surface area and the bubble-particle collision efficiency. This work shows that collision efficiency effects, shown to exist in single-bubble/single-particle systems, are also present in flotation systems where many bubbles and particles interact.A second model for hindered flotation is proposed which assumes that the particle-capturing bubble surface differs from the particle-retaining surface. This model predicts a sharp transition from hindered to free flotation. Experimental results are presented which agree well with those derived from the model. |
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