Research Information System
COATINGS, vol.13, no.37, pp.1-9, 2023 (SCI-Expanded)
Can the DLVO theory predict the foamability of flotation frothers as MIBC (methyl isobutyl
carbinol)? The flotation froth is a multi-bubble system, in which the bubbles collide, thus either
coalescing or rebounding. This scenario is driven by the hydrodynamic push force, pressing the
bubbles towards each other, the electrostatic and van der Waals forces between the bubbles, and the
occurrence of the precipitation of the dissolved air between the bubbles. We studied the foamability
of 20 ppm MIBC at constant ionic strength I = 7.5 × 10−4 mol/L at different pH values in the absence
and presence of modified silica particles, which were positively charged, thus covering the negatively
charged bubbles. Hence, we observed an increase in the foamability with the increase in the pH
value until pH = 8.3, beyond which it decreased. The electrostatic repulsion between the bubbles
increased with the increase in the pH value, which caused the electrostatic stabilization of the froth
and subsequently an increase in the foamability. The presence of the particles covering the bubbles
boosted the foamability also due to the steric repulsion between the bubbles. The decrease in the
foamability at pH > 8.3 can be explained by the fact that, under such conditions, the solubility of
carbon dioxide vanished, thus making the aqueous solution supersaturated with carbon dioxide.
This caused the precipitation of the latter and the emergence of microbubbles, which usually make
the bubbles coalesce. Of course, our explanation remains a hypothesis.