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Following is a very brief summary of the presentations made over the three days. This summary is intended to guide you to the extended abstracts associated with the presentations, most of which are available online as open-access. Unfortunately not all presenters responded to requests for drafts, but for those that did their names are linked directly to their papers in the online Proceedings.
The drafts have not been refereed, but all the presenters have been invited to submit their final papers for peer-review to a virtual special issue of Minerals Engineering.
Monday June 10th
Technical Session 1
Is physical separation still relevant in 2024? This was the question asked by James Agenbag, the regional sales manager for Africa and Europe for Mineral Technologies, South Africa in his opening keynote lecture. It is of critical importance he argued, as it is the most energy-efficient, chemical-free means of sorting and upgrading minerals. It will become an even more vital first-stage in future flow sheets. In addition, physical separation will also become a critical step in the recycling of batteries, cables, cell-phones and other electronics as we start to close the metal loop and start to re-use more and mine less.
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| James Agenbag (centre) with Mineral Technologies colleagues |
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| Ajay Sihota |
The Reflux Classifier achieves powerful synergy between an upper system of inclined channels and lower fluidized bed arrangement, delivering gravity separation in a single stage of separation. With over 240 installations around the world, the technology has been used to beneficiate iron ore, mineral sands, metallurgical coal, potash, chromite, lithium, and other base metal oxides. Pedro Pinto, of ArcelorMittal, UK, evaluated the variation of fluidisation water and bed density in the performance of the Reflux Classifier on Western Africa iron ore fines.
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| Pedro Pinto |
Kevin Galvin is the inventor of the Reflux Classifier and is Director of the ARC Centre of Excellence for Enabling Eco-Efficient Beneficiation of Minerals at the University of Newcastle, Australia. He is a recipient of numerous awards including the Ian Wark Medal, ATSE Clunies Ross Award, and Antoine Gaudin Award in mineral processing. He described the step-change improvement in gravity separation utlising the latest in a series of improvements.
Joshua Starrett is a PhD candidate, supervised by Prof. Galvin at the University of Newcastle. He discussed his work on the Reflux Classifier, aimed at maximising the performance of the particle size classification using inclined channels and the challenge of expanding the range of separation sizes beyond the previous limit of 180 microns.
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| Joshua Starrett and Kevin Galvin |
The GradePro is a modified version of the original Reflux Classifier technology and includes two key modifications to the original design: a reduced mixing chamber area and the use of secondary fluidisation water. These modifications allow for better stratification of particles by density and the removal of light gangue particles before they even enter the bed. Lance Christodoulou, of FLSmidth, USA showed how the the GradePro has been used to enhance the recovery of valuable minerals from low-grade ores and tailings.
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| Lance Christodoulou |
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| Wynand Roux |
Taking us to the lunch break, Wynand Roux, a lecturer at the University of Pretoria, South Africa, presented a study employing numerical modelling to explore the intricate hydrodynamics of a lab-scale inclined fluidised bed based on the Reflux Classifier design.
Technical Session 2
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| Chris Ndoe |
There is a growing demand for lithium as it is primarily used in the production of batteries. Nichole Maistry, a Senior Engineer at Mintek, South Africa,described how two lithium bearing ores, namely spodumene and lepidolite, underwent gravity separation via heavy liquid separation laboratory tests to determine the amenability of each ore to upgrade by gravity processes, such as dense medium separation.
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| Nichole Maistry (right) with Mintek colleagues |
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| Maria Cristina Vila |
Maria Cristina Vila is Associate Professor in the Department of Mining Engineering at the Faculty of Engineering of the University of Porto, Portugal and she showed how dense media cyclone models have applied to the pre-concentration of a diamond ore from Angola.
Tebogo Mokgomola, an Engineer at Mintek, investigated the effect of conventional crushing and HPGR on the pre-concentration of South Africa's UG2 ore by DMS to ascertain if the crushing method can minimise PGM losses.
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| Tebogo Mokgomola with Mintek colleagues |
Tomas Machalek is a project manager with Heidelberg Materials AG, Germany and is also studying for a PhD at VSB - Technical University of Ostrava in the Czech Republic. His work involves technical support for quarries and sand & gravel pits and he described the optimisation of a suction dredger’s discharging pipeline.
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| Tomas Machalek (left) |
Tuesday June 11th
Technical Session 3
One of the most important developments in recent years as been sensor-based sorting as a pre-concentration process prior to crushing. It is a dry process so reduces overall water as well as energy consumption.
Conference sponsor Steinert is a leading player in this field, and Priscila Esteves, is the laboratory manager at Steinert Latinoamericana, Brazil, and she leads the development of Sensor-Based-Sorting applications in Latin America. She discussed the utilisation of sensor-based-sorting technology to enhance the quality of low grade iron ore.
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| Priscila Esteves (centre) |
Jacek Kolacz, CEO of conference sponsor Comex Polska, Poland described how ore pre-concentration by sensor-based sorting is a complex process and must be optimised, especially when several sensors are applied. Therefore, a new optimisation method has been developed using an AI model to achieve efficient identification of required materials during sorting.
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| Jacek Kolacz (centre) |
Vitor Andrade, a Process Engineer with Vale, Brazil, showed that understanding the amenability of the sensor for each type of ore is fundamental for obtaining better performance and can help calibrate the optimum threshold. He presented a performance evaluation of a particle sorting X-ray transmission sensor for different types of copper ore and their composition influence on the sensor performance.
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| Vitor Andrade (centre) with Vale colleagues |
After the coffee break Tom Newman, a process engineer at ST Equipment & Technology LLC, USA, described the development of a dry separation system using a tribo-electrostatic belt separator, which requires no water or chemical additives.
Athule Ngqalakwezi, a Senior Engineer at Mintek, South Africa then looked at the effects of mineralogical difference on magnetic separation of two magnetite tailings samples sourced from the northern part of South Africa.
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| Athule Ngqalakwezi (centre) with Mintek colleagues |
Taking us to the lunch break Thiago Piacentini, Manager at Sibelco, USA discussed how high purity quartz is pivotal in advancing decarbonization through photovoltaic cells and enabling digitization via semiconductors and optical fibers. The primary reservoir for such quartz is found in North Carolina's leucogranite Appalachian deposits, rich in plagioclase, K-feldspar, mica, and heavy minerals. Existing purification methods, mainly flotation, incur high costs due to chemical reagents, mechanical complexity and extensive waste treatment. He described a study exploring the efficacy of Pulsating Wet High Intensity Magnetic Separation in streamlining the purification processes.
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| Thiago Piacentini (right) with Francois Burger (Stark Resources, South Africa) |
Technical Session 4
Frikkie Enslin, applications manager with Multotec Process Equipment, South Africa, focused on an important aspect relating to maximising profits in mineral processing- the lifecycle management and optimisation of the heart of many mineral processing plants, the hydrocyclone. He showed that cyclone lifecycle optimisation must move away from "one size fits all" to customised solutions.
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| Frikkie Enslin (centre) at the welcoming drinks function |
Following on from this, Victor Portnov, the CPO and founder of conference sponsor Conundrum AI, a technology company that provides a software platform for implementing, deploying, and running AI process control in the mining industry, described the control and optimization of hydrocyclone classification performance with predictive models.
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| Victor Portnov with Jenni Sweet of Mine3, South Africa at Mill Circuits '24 |
Khuthadzo Mudzanani,a research engineer at Mintek, South Africa, presented case studies from various mining operations on how wet sieving efficiency is influenced by mineral ore physicochemical properties and operational conditions,
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| Khuthadzo Mudzanani (centre) with Mintek colleagues |
As the original presenter could not attend, Max Richter, of the University of Cape Town, stepped in to present work laying the groundwork for a phenomenological screening model, offering a fundamental understanding of granular transport on vibrating screens.
In the final paper of the day Lesigen Moodley, of Eskom Research, South Africa described the microlithotype particle type classification and enrichment of coal maceral concentrates with the Reflux Classifier, Float-Sink and De Beers RhoVol techniques.
Wednesday June 12th
Technical Session 5
Andrew Vietti, Director at Vietti Slurrytec, South Africa, introduced a model for understanding dispersive clay behaviour for tailings solid/liquid separation applications, highly dispersive clays within tailings often being the cause of poor flocculation and of poor dewatering unit process performance.
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| Andrew Vietti with his colleague Fredre Dunn |
With high grade iron ore deposits in South Africa depleting, focus is placed on the use of low-grade ores. Tebogo Kale, of Gravitas Minerals, South Africa, described a new fine iron ore beneficiation process, The Kalahari Process, that aims to address the shortcomings of current technologies, with the Optima Classifier® at the heart of the circuit. The Optima Classifier® has proven its ability to produce a low, medium, and high-grade iron ore concentrate at economically favorable yields while also minimizing capital and operational costs.
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| Tebogo Kale with his Gravitas colleague Franco van de Venter |
CO2 emissions, water consumption, and tailings generation have driven the industry to develop environmentally friendly technologies. Thailli Conte, a geologist at Vale, Brazil, described a route for dry processing of iron ore which combines microwave technology for moisture reduction with the dry concentration of hematite and goethite fines in rare-earth permanent magnet concentrators.
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| Thailli Conte (centre) with Vale colleagues |
Gravity separation, magnetic separation or flotation are often used to upgrade ilmenite-containing ores prior to smelting. The choice of minerals processing technology depends on the mineralogical properties, liberation size and associated gangue. Getrude Marape, head of Physical Separation at Mintek presented a study investigating the recovery of fine ilmenite by magnetic separation.
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| Gertrude Marape (centre) with Mintek colleagues |
While bauxite residue (BR) is considered a waste product, it carries metals which can be recovered while minimizing the environmental impact. Kornel Tobiczyk, head engineer at Norwegian University of Science and Technology, Norway, presented a sustainable route for efficient extraction of metals from BR using hydrogen reduction followed by magnetic separation.
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| Kornel Tobiczyk (3rd left) |
Technical Session 6
The production of chrome ore is growing, mostly as an outcome of China's rising demand. South Africa was the top exporter globally in 2021. The typical South African chrome concentration plant consists of 4 or more stages of spirals, still discarding chrome tailings with a grade of up to 20% Cr2O3. Franco van de Venter, process manager with Gravitas Minerals, South Africa, described a new chrome recovery process, ChromEx, which employs the use of the Optima Classifier®, with the aim of increasing overall chrome recovery and decreasing the tailings grade to less than 12% Cr2O3.
Inga Sixhuta, an engineer in training at Mintek, discussed the characterization and processing of low-grade chromite ore for development of Cr mesoporous catalysts for oxidative desulphurization of dibenzothiophene.
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| Inga Sixhuta (2nd right) with Mintek colleagues at registration |
The Beauvoir granite is a highly differentiated intrusion considered as one of the most promising hard-rock lithium deposit in Europe. It also contains interesting amount of tin in cassiterite, niobium and tantalum in colombo-tantalite and microlite. Bastien Demeusy, of the University Of Lorraine, France, described the concentration of tin, niobium and tantalum from the Beauvoir granite using a Falcon SB concentrator.
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| Bastien Demeusy with his co-author Lev Filippov |
The conference came to an end with two papers on microwave technology from Vale, Brazil. Mariana Pereira is a Master Analyst at Vale and she described the calcination of kaolinite in a novel microwave rotating furnace. Vale's Kassia Toccolini then showed how a pilot plant study is proving that microwave technology for drying ores is becoming a green alternative, particularly in areas where clean electricity is largely available.
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| With Kassia Toccolini and Mariana Pereira |
A final thanks to all concerned in making this a great conference, the sponsors, exhibitors, chairpersons, presenters and delegates, and last but not least the wonderful staff at the Vineyard Hotel. We would greatly appreciate your comments on this posting.
A reminder also that the next conference in the series, Physical Separation '26, will be held at the Vineyard from April 20th to 23rd, 2026.
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