Study on the Mechanism of Low Temperature Oxidation on the Floatability of Coal Slime

• 1、National Engineering Research Center of Coal Preparation and Purification of China University of Mining and Technology, Xuzhou 221116, China
• 2、 School of Chemical Engineering & Technology of China University of Mining and Technology, Xuzhou 221116, China

Abstract：Different degrees of oxidation will occur during the storage and transportation of slime, and the surface properties and floatability will be greatly affected, in order to clarify the influence of surface oxidation on the floatability of coal slime and its mechanism. The experiment used induction time and adhesion kinetics as the main testing methods to explore the effect of low temperature oxidation on the floatability of coal slime, and systematically analyzed the changes of surface morphology, functional groups, contact angle and surface free energy of coal samples before and after low temperature oxidation. Reveal the mechanism of buoyancy deterioration. The results show that the coal slimming induction time increases and the particle bubble adhesion angle decreases after low temperature oxidation. The oxidation causes the surface of the slime to become rough and has hydrophilic minerals left; the surface hydrophilic oxygen-containing functional groups (C-O, C=O and COOH) increases, the hydrophobic functional group (C-C / C-H) content decreases; the surface free energy increases, the contact angle decreases, and thus the slime floatability decreases.

Keywords： Low temperature oxidation Coal Floatability Induction time Bubble adhesion kinetics