Abstract
A thixotropic recovery model has been developed that is based on consideration of the microstructural interactions that occur between particles within a suspension particle network. The model is based on Smoluchowski coagulation rate theory, utilizing second order kinetics to describe the thixotropic recovery behavior. The model is applied to Na-montmorillonite-based coal tailings suspensions and is also shown to be applicable to brown coal and bauxite residue suspensions. The model describes all the recovery data well, especially at intermediate to large recovery times. The recovery of the montmorillonite suspensions at short times was faster than predicted, indicating the existence of additional factors in early-time structure development. The discrepancy may have also been due to the highly anisotropic nature of the clay platelets. The recovery rate constant, K r , increases with increasing solids concentration (for constant surface chemical conditions) as would be expected from the basis of the model.
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Received: 22 September 2000 Accepted: 16 March 2001
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de Kretser, R., Boger, D. A structural model for the time-dependent recovery of mineral suspensions. Rheol. Acta 40, 582–590 (2001). https://doi.org/10.1007/s003970100180
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DOI: https://doi.org/10.1007/s003970100180