Controlling polymer addition flowrate to improve the flocculation of kaolinite suspensions as models for oil sands mature fine tailings

Abstract

Oil sands exploration generates large volumes of mature fine tailings—mixtures of clays, water, and residual bitumen—that remain stable even after settling in tailings ponds for many years. Commonly used flocculants, such as neutral and anionic polyacrylamides, destabilize the colloidal interactions between the clay particles, but unfortunately make flocs that break under shear and retain water. We grafted poly[(vinylbenzyl)trimethyl ammonium chloride] cationic chains onto amylopectin backbones to make a cationic flocculant with controlled hydrophobicity and combined it with a commercial ultra-high molecular weight anionic polyacrylamide to investigate how the addition flowrates and dosages of both polymers affected the flocculation of kaolinite suspensions. The addition flowrate of the cationic graft polymer changed the capillary suction time of the sediments and turbidity of the supernatant, while the addition flowrate of the anionic polymer affected the solids content of the sediments. The best conditions to capture fines and dewater the sediments were low dosages of anionic polymer and high dosages of cationic polymer. Focused beam reflectance measurements confirmed that the addition flowrate of each polymer affected the capture of clay particles, floc size, and floc shear resistance. A minimum addition flowrate of the cationic polymer was needed to destabilize the suspension and form primary flocs, which could then grow through combined charge neutralization and bridging with the anionic polymer to form shear-resistant and large flocs in the range from 500 to 1000 μm.