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Froth Characterisation and Behaviour in Mineral Processing

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Dr. Belinda Mcfadzean

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Guest Editor

Centre for Minerals Research, Department of Chemical Engineering, University of Cape Town, Cape Town, South Africa
Interests: froth characterisation and behaviour; reagent interfacial interactions; flotation hydrodynamics and plant optimisation

Dr. Kathryn Hadler

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Guest Editor

Department of Earth Science and Engineering, Imperial College London, London SW7 2AZ, UK
Interests: froth flotation; electrostatic separation; dry mineral processing; space resources
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Dear Colleagues,

The froth zone is of great importance in the flotation process since it is the final gatekeeper determining the grade and recovery produced by the flotation cell. The froth is sensitive to an overwhelming variety of interrelated factors. These can be broadly grouped as particle properties (size, mineralogy, shape), reagent type and addition rate, and cell operating conditions (air rate, froth depth). Characterisation of the froth is notoriously difficult, and many flotation models that have found practical application do not attempt to decouple the kinetics of the froth zone from that of the pulp. Those that do often use a fitted froth recovery factor since it is very difficult to measure froth recovery at an industrial scale. Prediction, control, and optimisation of froth properties to enhance separation performance remains challenging.

This Special Issue is dedicated to all aspects of the froth in flotation processes, including but not limited to the effects of various factors on froth response, froth characterisation methods, and froth modelling.

Dr. Belinda Mcfadzean
Dr. Kathryn Hadler
Guest Editors

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Research

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14 pages, 6360 KiB

Open AccessFeature PaperArticle

Monitoring of Flotation Systems by Use of Multivariate Froth Image Analysis

by Chris Aldrich and Xiu Liu

Minerals 2021, 11(7), 683; https://doi.org/10.3390/min11070683 - 25 Jun 2021

Cited by 10 | Viewed by 3601

Abstract

Froth image analysis has been considered widely in the identification of operational regimes in flotation circuits, the characterisation of froths in terms of bubble size distributions, froth stability and local froth velocity patterns, or as a basis for the development of inferential online sensors for chemical species in the froth. Relatively few studies have considered flotation froth image analysis in unsupervised process monitoring applications. In this study, it is shown that froth image analysis can be combined with traditional multivariate statistical process monitoring methods for reliable monitoring of industrial platinum metal group flotation plants. This can be accomplished with well-established methods of multivariate image analysis, such as the Haralick feature set derived from grey level co-occurrence matrices and local binary patterns that were considered in this investigation. Full article

(This article belongs to the Special Issue Froth Characterisation and Behaviour in Mineral Processing)

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Review

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29 pages, 8001 KiB

Open AccessReview

A Review of Flotation Physical Froth Flow Modifiers

by Tawona M. Jera and Clayton Bhondayi

Minerals 2021, 11(8), 864; https://doi.org/10.3390/min11080864 - 10 Aug 2021

Cited by 6 | Viewed by 6976

Abstract

Over the past few decades, the need to process more minerals while lowering capital costs has led to an increase in the size of flotation cells, e.g., 0.03 m³ to 1000 m³. However, this increase has created new challenges in the operation and design of industrial flotation cells, particularly in terms of froth removal, because the distance the froth must travel increases with an increase in the flotation cell diameter. This has a negative impact on recovery. Physical froth flow modifiers can be used to improve froth removal. Their major functions are to modify and optimise the flow of the froth, improve froth drainage, reduce dead zones, and improve froth flow and removal dynamics. Therefore, physical froth flow modifiers are discussed, evaluated, and compared in this paper. The literature indicates that physical froth flow modifiers such as crowders and launders are used extensively as industrial solutions to enhance froth transport and recovery in large flotation cells. Other modifiers (including froth baffles and froth scrapers) have been found to have a profound effect on local froth phase sub-processes, including drainage and bubble coalescence. However, industrial uptake is either dwindling or limited to small-volume rectangular/U-shaped cells in the case of scrapers, or, there is no uptake at all in the case of froth baffles. Further research on how some of the physical modifiers (e.g., baffles and launders) impact the selectivity of particles is required. Full article

(This article belongs to the Special Issue Froth Characterisation and Behaviour in Mineral Processing)

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