Hydrometallurgy '27

Hydrometallurgy is at the heart of sustainable mineral processing, driving innovation in the recovery of critical metals, resource efficiency, and environmental responsibility. Hydrometallurgy '27 is the 2nd in the MEI series, the first being in Adelaide in 2000. It aims to bring together researchers, industry leaders, and technology developers in hydro and biohydrometallurgy, to explore the latest advances in leaching, solvent extraction, ion exchange, electrowinning, process design, and waste management. 

Dr Frank Crundwell, Director of CM Solutions Metlab, South Africa, a globally-recognised authority on mineral dissolution and leaching, has been appointed as advisory lead for the conference. "CM Solutions is delighted to contribute to this prestigious event" says Ben Knights, CM Solutions CEO. "The CM Solutions team has a reputation for its hydrometallurgy expertise, and Frank’s pioneering work has earned him international recognition. Frank’s guidance of the technical direction of this event will help contribute to the future of hydrometallurgy"

In 2021 Frank received the SME's Milton E. Wadsworth Metallurgy Award, which recognises distinguished contributions that advance understanding of the science and technology of non-ferrous chemical metallurgy and he was nominated on the basis of his work in hydrometallurgy, leaching and the development of the theory of dissolution. 

Through keynote presentations, technical sessions, and networking opportunities, participants at Hydrometallurgy '27 will gain insights into emerging technologies and the challenges and opportunities shaping the future of hydrometallurgy.

Abstracts are invited for presentation at Hydrometallurgy '27 via the online portal by December 31st 2026.

#Hydrometallurgy27
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Artificial Intelligence in Mineral Processing '27

MEI's inaugural conference AI in Mineral Processing '27 is an international forum dedicated to exploring the transformative role of artificial intelligence, machine learning, and data-driven technologies in the field of mineral processing. AI is set to revolutionise mineral processing, as did the computer revolution of the 1980s.

As the global mining industry adapts to increasing demands for efficiency, safety, and environmental responsibility, AI is emerging as a key enabler of innovation. From advanced process control and real-time monitoring to ore characterisation, energy optimisation, and predictive maintenance, AI technologies are reshaping the future of mineral resource development.

The conference aims to bring together a diverse community of researchers, industry professionals, technology developers, and policy makers to:

• Present the latest research findings and industrial applications.
• Discuss challenges and opportunities in deploying AI solutions.
• Foster collaboration between academia, industry, and technology providers.
• Highlight pathways toward a more sustainable and intelligent mineral processing industry.

AI '27 will not only be a platform for sharing knowledge but also an opportunity to build networks and partnerships that will define the next generation of mineral processing technologies.

Abstracts are invited for presentation at AI in Mineral Processing  '27 via the online portal by December 31st 2026.

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January summary: Storm Goretti devastates Cornwall

In my first posting of the year I said "Happy New Year to you all and let's hope it will be a better one than 2025, with less conflict and upheaval across the world."  Well, that hope flew out of the window in the first few days of 2026 and it looks like being another troublesome year on the world stage. I guess everyone has their own views on some of the outrageous things said at the World Economic Forum in Davos, Switzerland.

Here in Cornwall, we returned from mild weather conditions in the Alps at the end of December to icy conditions, with temperatures touching zero. On the 8th of the month alarms sounded on our phones with a rare red "danger to life" warning from the Government and Storm Goretti, one of the most severe storms to hit Cornwall in the last 30 to 35 years, arrived in the evening with winds of up to 99 mph. Many homes in Cornwall, including Falmouth, suffered severe damage and long power outages, but fortunately, apart from flickering lights, we escaped it. Reports suggest that tens of thousands of trees may have been blown down across the county including 80% of the trees on the iconic St. Michael's Mount at Marazion and the immense force of the wind was evident when walking around Falmouth.

Tregoniggie Woodlands, Falmouth

Falmouth Cemetery

Close on the heels of Goretti, Storm Ingrid, although not as severe, produced very heavy seas which damaged beach properties on Cornwall's south coast and disrupted train services within and out of the county.

Breach of the sea wall at Dawlish, Devon, on the London-Penzance main line
Source: BBC

The rain has been relentless and shortly after Ingrid moved on Storm Chandra brought more torrential rain, disruption and flooding. 

New MEI recruit Will missed all this, as he had taken off for warmer climes, flying to Rio for travels in South America with his friend Sam. While in Brazil they managed to see the Iguasu Falls, arguably the most impressive falls in the world (posting of 1st August 2016), Will favouring the Brazilian rather than the Argentinian side of the Falls.

After travelling through Paraguay they enjoyed Buenos Aires, where they were joined by Will's girlfriend, Liv, before moving on to Uruguay. Will resumes his apprenticeship with MEI on his return and hopefully you will see him with Amanda and me at the Cape Town IMPC in October.

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A second Lifetime Achievement Award for Prof. Jim Finch

I was more than pleased to hear that my old friend Jim Finch received the Canadian Mineral Processors' Lifetime Achievement Award at the CMP Annual Meeting last week in Ottawa. In 2020 he was the recipient of the Lifetime Achievement Award of the International Mineral Processing Council.

Jim with McGill's Associate Professor Kristian Waters

With current and former graduate students of McGill University 

I have known Jim since 1986 when he attended the NATO Advanced Study Institute in Falmouth and in 2015 he was the subject of one of my interviews with leading mineral processors.

Jim had an illustrious career at McGill University, where he is now, after retirement, an Emeritus Professor, and did much to rank the University highly in the mineral processing field. As well as authoring over 300 journal articles he was co-author of the seminal book Column Flotation, with former student Glenn Dobby.

With Jim and Glenn in Cornwall in 1988

I am particularly proud of the fact that Jim agreed to work with me on Mineral Processing Technology, which was published as an 8th edition in 2016, a busy year for Jim as he was Chair of the International Mineral Processing Congress in Quebec.

Book signing in Phoenix, 2016

Opening IMPC 2016 in Quebec

Jim has had a big involvement with MEI. In 2015 he became a consultant to MEI's Flotation Conferences on the retirement of Prof. J-P Franzidis and  has proven to be a huge asset, advising on the technical programme and judging student presentations with his wife Lois, as well as presenting three keynote lectures over the years.

Jim and J-P Franzidis at Flotation '15

Jim actively involved with Flotation '23 and '25

Jim with fellow Antoine Gaudin Award winners, Jan Cilliers,
Kevin Galvin and Osvaldo Bascur at Flotation '25

Congratulations Jim from all at MEI. Nobody deserves this award more than you.

Jim and Lois with Barbara Wills at Flotation '11

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Advancing the Minerals Industry Through Collaboration: Capstone Copper and Promet101

Capstone Copper Corp. is a Vancouver-based Canadian mining company focused on copper production across the Americas. It was created in March 2022 through the merger of Capstone Mining and Mantos Copper, combining their assets and operations into a larger, diversified copper producer and has grown into a notable mid-tier copper producer with operations in Chile, Mexico, and the United States.

In 2024, the company produced roughly 184,000 tonnes of copper and Capstone is working toward becoming a 400,000 tonne annual copper producer over the next few years through organic growth and expansions.

Capstone emphasises responsible and sustainable mining, aiming to positively impact its employees, communities, and environments around its operations. Its sustainability reporting highlights efforts in responsible business practices and community engagement.

Peter Amelunxen joined Capstone in April 2022 as Vice President, Technical Services and was promoted to Senior Vice President, Technical Services in August 2023. Peter was the first recipient of the MEI Young Person's Award back in 2011 and in 2024 he received one of the SME's highest honours, the Antoine Gaudin Award.

Capstone was a sponsor of Flotation '25 and at the conference we were very pleased to hear from Peter that the company had agreed to sponsor not only Flotation '27 but also all 2026 conferences and Comminution '27.

Peter Amelunxen with MEI's Jon

Peter said: "In a world of rapidly rising demand for raw materials, we can’t rely solely on mining our legacy, high grade ore bodies. The next generation of successful mining companies are going to be those that embrace technology and innovation in a way that is measured, reliable, and prudent. Capstone Copper intends to be one of them, and that’s why we sponsor MEI Conferences. This conference series brings together the world’s most experienced and respected technical experts and puts them in a setting where they can freely share ideas, talk about their problems, and discuss solutions. Compared with other conferences, the signal to noise is extremely high, and I have never attended an MEI conference without having learned something brand new (to me), hired a rock star, or come away with a great new idea for our business. Sponsoring MEI is not just our way of saying thanks; it’s also a good Corporate Social Responsibility practice and excellent return on investment".

Promet101 has also become a strong supporter, and has agreed to sponsor all 2026 MEI Conferences, and AI in Mineral Processing '27 and Flotation '27 in the following year. Founded by CEO Stuart Saich, Promet 101 is an international company, headquartered in Australia, with offices in Canada and Chile, whose objectives are to provide sound solutions to clients' requirements and ensure that a well-documented path from ore definition, metallurgical testing programs through to process design criteria is provided for subsequent scrutiny by third parties such as engineering entities engaged to complete detail designs or peer reviews for project financing.

Stuart Saich with MEI's Jon

In 2023 Stuart said "So why does a small company like ours continue to support MEI through good and tough times. Well if you think carefully about it, how much effort is put into developing a technical paper. 100 or 200 hours per paper? Then what about the costs involved? By supporting MEI you are supporting a platform for the advancement of our own industry by willing individuals to advance the scientific knowledge of the very industry we belong to. What is the inherent intellectual value or investment into the knowledge base of each conference at which say 100 technical papers are presented? I would say $1-2 million a piece. And from that investment springs further value growth as ideas advance and commercialisation grows. Why do we invest in supporting MEI every year, because it makes absolute sense! It is not about me, it is about our industry!"

Many thanks Capstone and Promet101, we greatly appreciate your ongoing support.

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The Processing Challenge Behind the Critical Minerals Boom

Critical minerals underpin the technologies driving the next wave of industrial transformation, from AI data centres and electrified transport to renewable energy and defence systems. But while demand is accelerating, mineral processing capacity and supply diversification are struggling to keep pace. For mineral processing this widening gap presents both risk and opportunity.

Between 2024 and 2040, global demand for critical minerals such as copper, lithium, nickel, cobalt, graphite, and rare earth elements (REEs) is forecast to grow 1.5 times, from 35 million tonnes to over 52 million tonnes. This surge reflects the material intensity of the technologies powering decarbonisation and digitisation. Electric vehicles alone can require up to six times more minerals than internal combustion engine vehicles, including over twice the copper content. Likewise, renewable power systems, particularly wind and solar, are far more mineral-intensive than natural gas-fired plants.

By 2040, clean-tech applications could represent over 40% of total mineral demand, up from around 25% today. As grid-scale storage, electric transport, and AI infrastructure expand, copper, lithium, and REEs will be among the most strategically significant feedstocks. The question for mineral processors is whether the industry can scale up efficiently enough to meet these demands without compromising environmental or economic viability.

While new exploration and mining projects are essential, a recent report speculates that a major supply of critical minerals may be hiding in plain sight in many metals mines. Researchers found that U.S. metal mines already contain large amounts of critical minerals that are mostly going unused. Recovering even a small fraction of these byproducts could sharply reduce dependence on imports for materials essential to clean energy and advanced technology. In many cases, the value of these recovered minerals could exceed the value of the mines’ primary products. The findings point to a surprisingly simple way to boost domestic supply without opening new mines.

For copper, ore grade decline is already eroding output efficiency. Even as demand continues to climb, mined supply could peak before 2030, leading to a projected 33% gap between supply and demand by 2035. This places immense pressure on concentrators and smelters to extract more from lower-grade ores while maintaining recovery rates and controlling energy use. Advanced flotation chemistry, sensor-based ore sorting, and hydrometallurgical innovations may play a critical role in sustaining output.  MEI’s Process Mineralogy’26 aims to address some of these aspects from a mineralogical and geometallurgical perspective.  

Lithium processing faces similar constraints. While new spodumene and brine projects are emerging, the step from raw concentrate to battery-grade lithium carbonate or hydroxide remains a key limiting factor. Global lithium demand could rise from 1.2 million metric tons of lithium carbonate equivalent (LCE) in 2024 to as much as 3.3 million by 2030, with a potential 38% shortfall by 2035. Expanding refining and conversion capacity, especially outside China, is now central to supply security.

REEs are another case study in processing dependency. Although geologically abundant, they are technically challenging to separate and refine due to their similar chemical properties and environmental management requirements. China currently dominates 91% of REE refining and 94% of magnet manufacturing. Recent export restrictions on REE magnets and materials have further highlighted the risks of single-country dependency, underscoring the need for alternative processing hubs and cleaner extraction technologies. The graphic below shows Europe's dependence on China for its supply of critical minerals

China's dominance on critical minerals supply to Europe
Source: Visual Capitalist

And the graphic below shows China's share of global production of critical minerals

Source: Visual Capitalist

There are other causes for concern. South Africa, for instance,  produces 37% of the world's manganese but its last remaining manganese smelting operation is at risk of closure as surging electricity costs continue to batter energy-intensive industries, raising fresh concerns over job losses and the country’s industrial competitiveness.

As these challenges intensify, forums for technical collaboration and knowledge exchange are becoming vital. Events such as MEI’s Critical Minerals ’26: Processing and Recycling play a crucial role in uniting researchers, plant operators, technology developers, and policymakers to address precisely these bottlenecks. By spotlighting advances in beneficiation, hydrometallurgy, and recycling, the conference provides a global platform for developing the next generation of processing solutions essential to secure, sustainable mineral supply chains.

Alongside new mining and processing projects, recycling of critical minerals is emerging as an essential but underdeveloped pillar of supply. Recovering valuable elements from end-of-life batteries, electronics, and renewable infrastructure could reduce dependency on virgin mining and help close material loops.

However, recycling critical minerals presents unique metallurgical challenges. Many technologies, such as lithium-ion batteries and permanent magnets, are designed for performance rather than disassembly. Materials are often tightly bonded, chemically complex, or present in trace quantities, making recovery inefficient with conventional processes. For example, lithium recovery from spent batteries remains below 50% in most current hydrometallurgical flowsheets, and separation of REEs from magnet alloys is both energy- and reagent-intensive.

Developing economically viable recycling processes will require the same level of metallurgical innovation seen in primary production. Pyro- and hydro-metallurgical hybrid approaches, selective leaching, and solvent extraction tailored to complex feedstocks are all areas of active research. For processors, integrating recycled feed into existing smelters or refineries could become a strategic advantage, helping balance supply while reducing the carbon footprint of production.

Critical Minerals ’26 is set to be a focal point for this kind of innovation, highlighting not only advances in recycling flowsheets but also the integration of secondary materials into conventional processing infrastructure. As recycling becomes an indispensable component of supply chain resilience, the discussions and case studies shared at the conference are expected to influence both industry strategy and policy direction.

Governments are increasingly aware that processing, not just mining, determines strategic autonomy. The race to electrify and digitise the global economy begins, and could stall, at the processing stage. Without sufficient refining, conversion, and recycling capacity, even the most promising ore bodies will not translate into resilient supply chains for batteries, power grids, or AI infrastructure.

For mineral processors, this decade represents a defining moment. Expanding global capacity, improving recovery efficiencies, and developing circular, lower-impact processing routes will determine not just profitability but the pace of the energy transition itself. As the sector seeks pathways forward, Critical Minerals ’26 stands as a pivotal forum for collaboration, bridging research and practice to accelerate the innovations that will define the future of critical mineral processing.

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