Loading...
Bingham yield stress and Bingham plastic viscosity of homogeneous Non-Newtonian slurries
Author(s)
Zengeni, Brian Tonderai
Date Issued
2016
Type
Thesis
Publisher
Cape Peninsula University of Technology
Abstract
This dissertation presents how material properties (solids densities, particle size distributions, particle shapes and concentration) of gold tailings slurries are related to their rheological parameters, which are yield stress and viscosity. In this particular case Bingham yield stresses and Bingham plastic viscosities. Predictive models were developed from analysing data in a slurry database to predict the Bingham yield stresses and Bingham plastic viscosities from their material properties. The overall goal of this study was to develop a validated set of mathematical models to predict Bingham yield stresses and Bingham plastic viscosities from their material properties.
The interaction of the non-Newtonian material properties is very complex at varying mass solids concentrations. The evaluation of these interactions in terms of constitutive equations is almost impossible and the relationship between material properties, mass solids concentration and rheology can only be modelled in a statistical manner. The validity of each model is checked to ensure that predictions and interpretations are unbiased and efficient. This is done by comparing the resulting models to experimental data generated from test work. An in-depth analysis was conducted to see the interrelationship between the material properties and how they affect the yield stress and viscosity values.
The interaction of the non-Newtonian material properties is very complex at varying mass solids concentrations. The evaluation of these interactions in terms of constitutive equations is almost impossible and the relationship between material properties, mass solids concentration and rheology can only be modelled in a statistical manner. The validity of each model is checked to ensure that predictions and interpretations are unbiased and efficient. This is done by comparing the resulting models to experimental data generated from test work. An in-depth analysis was conducted to see the interrelationship between the material properties and how they affect the yield stress and viscosity values.
Additional information
Thesis (MTech (Mechanical Engineering))--Cape Peninsula University of Technology, 2016.
File(s)![Thumbnail Image]()
Loading...
Name
210233265-Zengeni-Brian-Tonderai-Mtech-Mechanical-Engineering-Eng-2017.pdf
Description
Thesis
Size
1.86 MB
Format
Adobe PDF
Checksum
(MD5):51a9d124a77a7c0cfb3328759da5b02a