Designing and Assessing the Performance of AG/SAG and Ball Mill Discharge Systems

Tumbling mills have been a core technology in the comminution stage of ore processing for the mining industry for over a century. The efficiency of any comminution device depends on how effectively it converts input energy into particle breakage and how quickly the product sized particles are removed from the system.

Transport of the particles through the charge and their discharge from the mill are among the key factors that determine both energy usage and capacity. To exploit the cost advantage of economy of scale, the processing of low-grade ores has seen the design of larger tumbling mills to meet the required throughput demand. As the tumbling mills become larger, the limitations in most discharge designs become more pronounced.

To address these shortcomings in the discharge capacity, many studies have been commissioned. Studies have shown that conventional pulp lifters experience significant flow-back and carry-over, limiting overall discharge performance. To address the issues that were observed in AG/SAG and ball mills, different discharge grate designs were developed and tested. Some of the designs focused on spiral pulp lifers with apertures positioned in the areas that results in minimal flowback. The development of the dual-chamber pulp lifter, followed by the traditional and enhanced/enclosed designs, resulted in significant improvements in discharge capacity for tumbling mills. 

In a keynote lecture at Comminution '27, Sanjeeva Latchireddi, of EEMS Australia will discuss the evolution of discharge designs and their influence on the performance of tumbling mills. Case studies showing how improved designs have led to significant energy savings as well as increased throughputs will be presented and recommendations for a holistic approach to designing and assessing tumbling mill performance will be provided. 

Dr. Sanjeeva Latchireddi is the Founder and Director of EE‑Mill Solutions USA and EEMS Australia, and serves as an Adjunct Associate Professor at the University of Utah, USA, and the WA School of Mines in Kalgoorlie, Australia. His work focuses on developing energy‑efficient solutions to de‑bottleneck and enhance the performance of AG/SAG and ball mills, delivering significant reductions in electrical energy consumption and carbon footprint.

Dr. Latchireddi earned his PhD from the JKMRC, Australia and received the 2004 MIOTA (Mineral Industry Operating Technique Award) from the AusIMM for inventing the Twin Chamber Pulp Lifter (TCPL). He holds five international patents, including the latest advancement, the Energy Efficient Pulp Lifter (EEPL), and has authored more than 80 papers in international journals and conferences.

This will be Sanjeeva's first time at a comminution conference in Cape Town. He represented Outotec USA at Comminution '08 in Falmouth, and we first met in 1989, when he was one of the students at the Indian School of Mines, where I taught a course in mineral processing!

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Hitachi High-Tech Joins Process Mineralogy '26 as a First-Time Sponsor

We are pleased to welcome Hitachi High-Tech Corporation, USA, as a sponsor of Process Mineralogy '26, the first time the company has sponsored an MEI conference. Hitachi High-Tech Corporation is a global science and technology company within the wider Hitachi Group, focused on advanced measurement, analysis, and industrial solutions

Hitachi is in partnership with Bruker for automated mineralogy software for minerals, oil and gas and the two companies will have adjacent booths at the exhibition at Process Mineralogy '26. Hitachi also exhibited at Process Mineralogy '17 and Bruker has sponsored six of the eight conferences in the series. 

The adjacent Hitachi and Bruker booths at Process Mineralogy '17

Each company focuses on its core expertise, Hitachi microscopy hardware and Bruker spectroscopy and detectors. Hitachi builds electron microscopes while Bruker provides EDS detectors and software so that structure and composition are provided in one workflow, a much more powerful tool than either alone.

Their booth placement at Process Mineralogy '26 is basically a physical representation of how modern mineralogy works. No single instrument is enough. Integrated imaging and chemistry and software is required, and together Hitachi and Bruker are that integrated stack.

The deadline for abstract submission to Process Mineralogy '26 is the end of next month, as it is for Critical Minerals '26, which runs immediately afterwards.

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AI the next giant leap in innovation

Recent advances in artificial intelligence are transforming industrial operations by enabling deeper integration between engineering knowledge, real-time data, and decision-making processes. MEI's inaugural AI in Mineral Processing '27 will examine the latest developments in AI technologies, and the keynote lecture from Dr. Osvaldo Bascur, who I interviewed in 2017, will review Digital Twins, Large Language Models, machine learning tools, agentic AI embedded in web browsers, and advanced big data visualisation platforms, with a focus on industrial applications. The proposed framework will integrate data from field instrumentation, edge devices, cloud platforms, and enterprise business systems to support asset performance, sustainability, autonomous operations, operational excellence, and operational resilience.

A central case study will be the AI-driven Digital Twin for mineral processing plants, which represents a significant step forward in hybrid intelligence by combining physics-based process models with data-driven learning. This approach enables integrated optimisation across rock, mineral, and water sub-systems, overcoming traditional operational silos. Real-world implementations, including a deployment at a copper operation in Chile, will be introduced to demonstrate measurable benefits such as increased water recovery, higher metal production, and improved process stability without capital investment. Beyond technical performance, the Digital Twin fosters organisational transformation by empowering operators and engineers with predictive insights, natural-language AI copilots, and a shared, real-time view of plant performance aligned with sustainability and ESG objectives.

With Gaudin Award, 2014

Osvaldo A. Bascur is Principal and Consultant Fellow at OSB Digital, LLC, USA. He is a Member of the National Academy of Engineering, USA, for applying phenomenological and artificial intelligence modeling techniques in mineral and industrial plant performance optimisation. He is a Member of the Texas Academy of Medicine, Engineering, Science and Technology, USA, and in 2014 was the recipient of the  SME Antoine Gaudin Award. 

He is co-author, with Dr. Fernando Concha of The Engineering Science in Mineral Processing: A Fundamental and Practical Approach, and author of Digital Transformation in the Process Industries: A Road Map.

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2025 MEI Young Person's Award to Túlio Moreira Campos

We are very pleased to announce that Túlio Moreira Campos is the winner of the 2025 MEI Young Person's Award.

Túlio is a Metallurgical Engineer who graduated from the Federal University of Rio de Janeiro (UFRJ), Brazil. He completed his Master of Science in Metallurgical and Materials Engineering at the Alberto Luiz Coimbra Institute for Postgraduate Studies and Engineering Research (COPPE/UFRJ), and he is currently a PhD candidate in Metallurgical and Materials Engineering at the same institute. 

Túlio works as a Research and Development Engineer at the Laboratório de Tecnologia Mineral (LTM/COPPE/UFRJ), focusing on mathematical modeling of comminution, process simulations, fundamentals of particle breakage, optimisation of grinding circuits, online model application, data analytics, multicomponent comminution, and mineral liberation. He has already made substantial contributions to the understanding of particle breakage under compression, to the modeling of HPGRs, including its implementation online as digital twin in controlling the unit, to the modeling of size reduction in ball mills, using both the population balance and the UFRJ mechanistic models, to the application of machine learning to circuit data.

In 2020, Túlio was appointed as the second-in-command of the Federal University of Rio de Janeiro's group within the Global Comminution Collaborative (GCC). Furthermore, in 2022, he earned the distinction of being named an associate member of the GCC Foundation e.V. He presently holds a position within the Management Team of the GCC.  Túlio has been the recipient of several awards, including the IMPC Young Author's Award,  delivered by the IMPC Council in 2021, the Best Student Paper Award for papers presented at Comminution '23 and Comminution '25, and Vale's Technical Recognition for a paper presented at the 9th Brazilian Ore Agglomeration Symposium.

Túlio is characterised by his proactive, communicative, and dedicated nature. His primary research focus lies in the development and application of mechanistic, practical, and robust process models. These models aim to enhance and integrate overall process simulations as tools for fostering innovation within the minerals industry.

Túlio's nomination came from Prof. Luís Marcelo Tavares, who is his PhD supervisor at UFRJ, together with Prof. Malcolm Powell, Emeritus Professor of the University of Queensland. Prof. Tavares' long citation can be found online and is supplemented by support from Prof. Powell, who says that Túlio has been outstanding in terms of dedication, application and quality of outputs. His work on breakage modelling builds off previous concepts, some of which have been overlooked in general comminution application, and extends these based on careful and detailed experimental test work. "This is the calibre of work that is needed to move the science forward, rather than general trends and empirical backfitting", said Prof. Powell.

Also supporting the nomination is Prof. Holger Lieberwirth, of TU Bergakademie Freiberg, Germany, who sees exceptional capabilities in Tùlio as "one of the coming top researchers in the field of minerals processing, shaping the future in this area".

Tùlio (3rd left) at Comminution '25 with his nominator Marcelo Tavares (2nd left) and
supporters Holger Lieberwirth (1st left) and Malcolm Powell (3rd right)

Congratulations, Túlio, we look forward to presenting you with your award.

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Petrolab Continues Its Support for Process Mineralogy and Critical Minerals in 2026

Cornish company Petrolab has been a regular sponsor of MEI's Process Mineralogy series, and we thank them for their continuing support with Process Mineralogy '26. And a special thank-you, as the company has also agreed sponsorship of Critical Minerals '26 which immediately follows Process Mineralogy '26. Petrolab also sponsored Critical Minerals '24, the first in this series.

Petrolab Technical Director, James Strongman, said "Petrolab is very proud to continue sponsoring both the Process Mineralogy and Critical Minerals MEI Conferences. The process mineralogy conference is a key date in our calendar; it's an opportunity not only to showcase the work we have been conducting with our clients and technology partners, but also to leverage the invaluable network we have built over the years. The conference has an unrivaled blend of industry, academic research, and technology partners, which really helps to foster innovation and technology development while linking to real world applications. Critical minerals has been a great conference for focusing on an ever-growing, yet particularly challenging field. This is perhaps unsurprisingly where we are seeing the greatest amounts of innovation and diversity in projects. We are particularly excited to see how other groups and technologies are meeting those challenges and opportunities. It is also a conference that brings people for outside the traditional mining and mineral processing industries".

Petrolab's James Strongman and Corinne Garner at Process Mineralogy '24

Petrolab provides technical support services to the mining, minerals processing and materials industries worldwide and has been operating for over 30 years. They are specialists in the mineralogical investigation of rocks, mineral resources and manufactured inorganic materials by microscopic analysis. High quality interpretative reports help clients evaluate the potential of their mineral resources and solve materials related problems. Headquartered in Redruth, in the centre of the historic tin and copper mining district, Petrolab has close links with local and international companies, such as fellow Process Mineralogy '26 sponsor Zeiss, and offers world class expertise in the mining and minerals processing industries.

A reminder that if you would like to present a paper at either of these conferences, the deadline for short abstracts is the end of next month.

#ProcessMineralogy26
#CriticalMinerals26
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March Summary: an increasingly turbulent world

"I’ve restored American strength, settled eight wars in 10 months, destroyed the Iran nuclear threat and ended the war in Gaza, bringing for the first time in 3,000 years peace to the Middle East."  

Modest words from US President Donald Trump in a prime-time "Address to the Nation" from the White House on 17 December last year.

Less than 3 months later, the Middle East has seen a major escalation into a regional war after the USA and Israel launched large-scale strikes on Iran, including attacks in Tehran that killed Iran’s supreme leader and other senior officials. Having previously claimed Iran's nuclear programme was "obliterated" by US strikes on its enrichment facilities last year, Trump said Iran could have built a nuclear weapon "within two weeks" without the latest attacks.

Iran retaliated with missile and drone strikes on Israel, U.S. forces, nine Middle East countries, as well as Cyprus and Azerbaijan, while Iranian allied groups began attacking Israel from Lebanon and Yemen, widening the conflict. The fighting has caused thousands of casualties, severe air-travel disruption, and economic shock-waves as shipping through the Strait of Hormuz and regional airspace was disrupted. 

As 20% of the word's oil comes through the Strait of Hormuz, oil prices peaked, but besides oil, the Strait carries several commodities important to industrial supply chains, including mining. Major oil and gas producers in the Gulf export large quantities of sulphur, a by-product of refining. Sulphur is critical for producing sulphuric acid, which is widely used in copper leaching, nickel and uranium processing and phosphate fertilizer production. The Gulf also exports petrochemicals, used to make reagents for flotation and other processes.

In this increasingly turbulent world it is impossible to predict which safe haven will one day become a war zone. Cape Town is thankfully well out of the current firing line so hopefully will continue to be a safe venue for future MEI Conferences and this year's IMPC, but we are also looking at other countries, and in the middle of the month Amanda and son Will spent a few days assessing potential conference venues in Kuala Lumpur, Malaysia.

Amanda flew from Kuala Lumpur to Adelaide to represent MEI as a media partner at MetPlant '26, while Will and his girlfriend proceeded with their "Grand Tour" and are now in Bali, Indonesia.

Amanda with MetPlant convenor Janine Herzig and delegate Nobuzwe Makhotla

Amanda returned to London via Hong Kong, her original scheduled flight changing in Dubai, but she is now back in Cornwall, preparing to leave again in two weeks time, for Cape Town and Physical Separation '26 and Mineral Processing Circuits '26.

Whether the Middle East war will be resolved in April is anyone’s guess. Even President Trump appears unclear, claiming at various points that he has won the war, is currently winning it, needs help to win it, and needs no help at all. It brings to mind Schrödinger’s cat!

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