Litcius/Paper detail

Mechanism of humic acid adsorption as a flotation separation depressant on the complex silicates and hematite

A. Tohry, Reza Dehghan, Mahmoud Zarei, Saeed Chehreh Chelgani

2020Minerals Engineering55 citationsDOIOpen Access PDF

Abstract

Humic acid (HA), as an environmentally friendly depressant, absorbed significant attention for possible cleaner production within mineral separation by selective separation, especially for reverse flotation of iron oxides. However, a few systematic studies were addressed its effect on the iron ore reverse cationic flotation in the presence of complex silicates and its adsorption mechanism on the surface of these minerals. This work is going to fill this gap by exploring the depression mechanisms of HA through the reverse cationic flotation (separation of hematite from complex silicates; augite and hornblende). Wettability analyses, micro and batch flotation scale tests were employed for such a purpose. Adsorption test, turbidity measurement, zeta potential measurement, and Fourier Transform Infrared (FTIR) analyses were conducted to understand HA adsorption's mechanism on these minerals' surface. Results relieved that at the low concentration of HA (20 mg/L), adsorption on the examined minerals' surface occurred. Based on the micro-flotation test results, HA's depression impact has the following order: hematite ≫ augite > hornblende. The surface analysis results suggested that HA can interact with the Fe ions on the hematite surface by chemical and hydrogen bonding. The same mechanism was observed for HA adsorption on the considered silicates; however, the adsorption rate was lower, while lower polyvalent cations are available on these silicates' surface.

Topics & Concepts

HematiteAdsorptionDepressantChemistryZeta potentialHumic acidChemical engineeringMineralCationic polymerizationWettingClay mineralsFourier transform infrared spectroscopyInorganic chemistryMineralogyOrganic chemistryMedicinePharmacologyFertilizerEngineeringNanoparticleMinerals Flotation and Separation TechniquesIron oxide chemistry and applicationsExtraction and Separation Processes