Effect of gas rate and impeller speed on bubble size in frother-electrolyte solutions |
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| Affiliation: | 1. Mineral Processing Division, CSIR-National Metallurgical Laboratory, Jamshedpur, India;2. Centre for Minerals Research, Chemical Engineering Department, University of Cape Town, South Africa;1. Department of Chemical Engineering, Technical University of Berlin, Germany;2. Department of Chemical Engineering, Al-Nahrain University, Iraq |
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| Abstract: | In a flotation cell, bubble size is a function of both coalescence and breakup phenomena. Two phase tests, conducted in a conventional 5.5 L Denver mechanical flotation cell, studied the effect of impeller speed, gas flow rate and frother concentration on bubble size in various electrolyte-frother solutions. The addition of frother to a synthetic sea salt did reduce the measured bubble size (at certain mechanical conditions); whereas the effect of frother addition to NaCl was too small (when compared to measurement errors) to make significant conclusions. This led to more detailed CCC curves (0–50 ppm MIBC) for NaCl, NaCl + MgCl2, NaCl + CaSO4, and NaCl + KCl solutions, at constant electrolyte concentrations, to be conducted. They showed an increase in bubble size with the addition of MIBC. This was attributed to the saturation of frother at the air-water interface, reducing local surface tension gradients that help produce smaller bubbles. This occurrence is typically masked in traditional CCC curves due to the dominance of coalescence effects at low frother concentrations. |
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| Keywords: | Bubble size Seawater Frother Salt Impeller speed Flotation |
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