The effect of polymer structure type, pH and shear on the interfacial chemistry, rheology and dewaterability of model iron oxide dispersions

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McGuire, Melanie J, Addai-Mensah, Jonas and Bremmell, Kristen E (2006) The effect of polymer structure type, pH and shear on the interfacial chemistry, rheology and dewaterability of model iron oxide dispersions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 275 (1-3). pp. 153-160. ISSN 0927-7757

Abstract

The effect of high molecular weight (7.5–9 × 106 Da) polyacrylamide flocculant structure type (anionic polyacrylamide, PAM A and non-ionic polyacrylamide, PAM N) on the interfacial chemistry, rheology and dewaterability of a colloidal iron oxide dispersion has been investigated at three pH values where the particles are at the isoelectric point (iep) and either side of the iep. PAM A was found to adsorb with a lower affinity than PAM N at all pH values tested, however, PAM A had a more significant effect on the particle zeta potential and the shear yield stress. Highest settling rates (100 m/h) were achieved with PAM A at pH values at and below the iep, with flocculant dosage below 100 g polymer/t solid. Settling rates with PAM N at similar concentrations, however, only produced settling rates between 5 and 10 m/h. Pulp pH and the addition of the flocculants (up to 500 g polymer/t solid) had no noticeable effect on the extent of the pulp consolidation. Significantly, shear of pre-sedimented dispersions was found to increase the consolidation by up to 15 wt%. Polymer structure type was found to have a significant effect on the rheology of the dispersion, with PAM A-flocculated dispersions leading to a higher yield stress than dewatering with PAM N.

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Additional Information

Online ISSN: 1873-4359

Item type Article
URI https://vuir.vu.edu.au/id/eprint/8090
DOI 10.1016/j.colsurfa.2005.09.034
Official URL http://dx.doi.org/10.1016/j.colsurfa.2005.09.034
Subjects Historical > FOR Classification > 0904 Chemical Engineering
Keywords ResPubID22137. flocculation, dewatering, polymer adsorption, hematite, polyacrylamide, polymers, iron oxide
Citations in Scopus 40 - View on Scopus
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