Tag Archives: nickel

Opening speaker and keynotes secured for ALTA 2020

Base metals, Energy minerals, Environmental, Metallurgy, Mineral processing, Mining events, Mining techniques, Precious metals, , , , , , , , , , , , ,

The ALTA 2020 conference is shaping up nicely, with new opening and keynote speakers just announced for its 25th anniversary event.

Stedman Ellis, Chief Executive Officer of Future Battery Industries CRC (Australia), is set to open the conference with a paper titled, “A Research-Based Strategy for Establishing Australia as a Leading Player in the Emerging Global Battery Industry”.

Meanwhile, John Neale, Technical Specialist at Mintek (South Africa), is set to take on the nickel-cobalt-copper keynote with a talk titled: ‘Bioleaching of Nickel and Cobalt – The Progress and The Potential’.

The annual metallurgical event, to be held in Perth, Western Australia, on May 23-30, will also include a uranium-REE keynote from Darryl Butcher, Director of BDB Process (Australia). Butcher will present, ‘Review of Membrane Technology as a Process Tool’ at the event. The gold and precious metal keynote will come from Karel Osten, Independent Consultant at Mettko Pty Ltd (Australia), who will go some way to answering: ‘POX – Has it Reached its Full Potential, or is There Still Room for Improvement for Treating Refractory Gold Ores?’

The in-situ recovery keynote is yet to be announced, but Professor Peter Talbot, from the Institute for Future Environments at Queensland University of Technology (Australia), has the honour in the lithium and battery technology session. His paper is titled: ‘The Creation and Implications of Australia’s First Lithium-Ion Battery’.

For more information on ALTA 2020, follow the website here: www.altamet.com.au/conferences/alta-2020/

International Mining is a media sponsor of ALTA 2020

Comet on the search for new processing route for Titan nickel ‘balls’

Base metals, Metallurgy, Mining events, Mining project news, , , , , , ,

Comet Resources has launched a scoping study into building a pilot plant to test a potential new nickel processing breakthrough, Director Hugh Morgan said on the final day of the Paydirt 2019 Africa Downunder mining conference in Perth, Australia.

The company’s Titan nickel project, in Nigeria, is one of those rare discoveries where the metal is contained within super small clusters of “balls” that cannot be conventionally processed. This is the reason the company is launching the new study.

If successful, the new processing route could unlock the mining future for the project, which has reportedly seen nickel balls visible at surface that contain 95% Ni metal.

Speaking on the third and final day of the conference, Morgan said a company called WildIP had patented a new metal extraction process thought applicable to the Titan metallurgy. A royalty-free licence to use the process has been granted to Comet specifically for the Titan project and a pilot plant scoping study using the technology is now underway, according to Morgan.

“WildIP’s Ni metal digestion process uses low temperature and low cost reagents,” Morgan said. “It’s environmentally benign digest liquor has proved to be 100% effective and efficient and can be recycled, meaning cheaper processing costs and less water requirements.

“This potentially points to the opportunity not to have a tailings dam on a mine site and for any dried residue to be used for backfill,” Morgan said.

The new approach also allows the pregnant liquid to be precipitated to produce whatever nickel product is required such as nickel sulphate hydroxide, according to Morgan.

He said the breakthrough had broad application to metals and was particularly effective for nickel metal and other nickel ore types including laterites. But it could also extract other metals including gold, platinum, palladium, copper and silver, with initial testing of some gold ore types returning 100% gold extractions.

Comet discovered the deposition at Titan about four years ago as a new “ball-style” of native nickel metal. The balls comprise 95% nickel and are disseminated in the host rock at a grade estimated at between 1.5-3% Ni, the company says.

Morgan acknowledged the normal process would have been to start a drill out to define the mineralised body at Titan and to assess its grade and depth extent and then move to mining – but it was found the nickel balls were insoluble by conventional digestion methods, forcing a hunt for a new processing solution.

“Physical extraction was one possible method but would have resulted in only 25% recovery of the Ni metal as 70% of the balls are too fine to physically extract and many balls are buoyant and floated off in conventional processing tests.

“It was clear to us that without a wet chemistry process, we could only extract 25% of the metal.

“The new breakthrough maintains our conviction that there continues to be a reasonable expectation of developing Titan into a world-class Ni deposit able to rival the world’s largest and important Ni mines.”

Twin Metals looks to avoid tailings dam concerns with dry stacking plan

Base metals, Environmental, Mineral project development, Mining project news, Precious metals, Water management, , , , , , , , , , ,

The developer of the Twin Metals project, in the Iron Range region of northeast Minnesota, USA, has announced plans to use dry stacked tailings at the underground copper, nickel, platinum, palladium, gold and silver asset as the company looks to eliminate the perceived risk of a dam leakage or failure.

Twin Metals Minnesota (TMM), a company owned by Antofagasta, said the dry stack method eliminates the storage pond and dam associated with conventional tailings facilities and has been successfully used in four mines in the northern US and Canada with similar climates to Minnesota.

In 2018, an update of the prefeasibility study for Twin Metals outlined a 18,000 t/d ore project, producing an average of 42,000 t/y of copper, plus nickel and platinum group metals as by-products, the equivalent of some 65,000 t/y of copper.

TMM, like many other potential mine developers, said community concerns about copper-nickel mines have focused on fears of tailings dam failure or leaks that could threaten both nearby surface water and groundwater. This comes after several high profile dam failures in North and South America.

If all goes to plan, the company will use the dry stack method to store the leftover rock from its proposed underground mine on a lined ground facility near the plant site. This will allow reclamation of the tailing site to occur in stages, with the site capped or covered with natural vegetation.

Kelly Osborne, Chief Executive Officer of Twin Metals Minnesota, said: “Dry stack tailing storage is the most environmentally friendly tailings management approach for our site. The first key is that there’s no dam, no risk of dam failure. The moisture content of the filtered tailings is reduced to a material that we can compact and manage seasonally.

“Because there’s no risk of a dam failure, dry stack is considered the best available technology for tailings storage and, after a decade of study and consultation with concerned voices in our community, we determined that it will be an effective choice for our project.”

Equally important, TMM said, is the fact that the tailings from the Maturi deposit at Twin Metals will be non-acid-generating.

“The common concern about sulphides points to a basic misconception about our project,” Osborne said. “The geology of the Maturi deposit provides us with confidence that we can mine here safely and sustainably. The rock sandwiching the layer of copper, nickel and platinum group minerals in the deposit is almost completely free of sulphides. When the targeted minerals are removed during the concentration process and shipped to customers, only a minute amount of sulphides will remain in the tailings.”

Extensive testing over the past decade shows that Maturi deposit tailings will be non-acid-generating, the company clarified.

Dry stack tailings storage has been an option under consideration since Twin Metals began mine planning in 2010, the company said. “As technology has continued to advance, and the application of dry stack in cold, wet climates has proven successful at multiple locations, Twin Metals made the decision to move to it as the best available option,” TMM said, adding that The Minnesota Center for Environmental Advocacy hailed the advantages of dry stack tailings in a statement earlier this year.

Osborne concluded: “Dry stack is one of the ways we are making a 21st century mine that will be the most technologically advanced mine in Minnesota’s history and a model of how copper mining can be done safely and sustainably.”

The approach will be outlined in detail in TMM’s Mine Plan of Operation, to be submitted to state and federal regulators in the coming months. Regulatory review, including hearings for public comment, will cover compliance with regulations to protect water and air quality, drinking water, wetlands, endangered species, plant life and cultural resources. While the MPO is being reviewed the company will advance the feasibility study.

After reaffirming Twin Metal’s right to renew its two federal mineral leases, the Department of Interior reinstated the leases to TMM in May 2018. Antofagasta expects these to be renewed during 2019.

Boliden Kevitsa takes delivery of first EU-Stage-V-compliant Komatsu haul truck

Base metals, Equipment maintenance, Mine operation news, Mining equipment, Mining safety, Mining services, Mining software, , , , , , , , , , , , , , , ,

Boliden has received the first haul trucks from Komatsu as part of its investment in a new truck fleet at its Kevitsa (Finland) and Aitik (Sweden) open-pit base metal operations.

The delivery marks the entry of Komatsu electric dump trucks into the European market, according to the miner.

For Kevitsa, 17 Komatsu 830E-5 haul trucks will be delivered until January of 2020, with nine Komatsu 930E-5 haul trucks being delivered to Aitik until April 2020.

The new trucks are the first EU Stage-V haul trucks within Boliden’s fleet, significantly reducing diesel exhaust emissions, the company said. They will also provide improvements in operator environment and safety, Boliden added.

The Komatsu 830E-5 haul trucks have a 220 t payload and will replace the current truck fleet at Kevitsa, reducing the mine’s production cost, Boliden said. To further increase efficiency and productivity, the trucks will be equipped with dispatch and maintenance systems from Modular Mining to enable optimised production and tracking as well as fleet maintenance support, the company said.

Boliden mentioned the purchase of trucks back in October during its September quarter results, saying it had reached agreement with Komatsu regarding an investment totalling some SEK 900 million ($96 million). At the time, the company said all of the trucks were equipped for future electrification; an important point considering the trolley assist trial ongoing at Aitik.

To mark the delivery milestone of the first truck, a handover ceremony was arranged in Kevitsa on July 10.

During the event, strategies and technical solutions were presented by executives such as Boliden President and CEO, Mikael Staffas, and Managing Director and CEO of Komatsu Europe, Masatoshi Morishita.

Mikael Staffas said: “This is an important step in the development of our open-pit mines while improving our environmental performance from an already strong position. This [is], not least, because we now create opportunities for increased electrification and related productivity development.”

Masatoshi Morishita says: “Today is a milestone for Komatsu Europe. With the delivery of first CE-certified Electric Dump Trucks to Boliden, Komatsu can offer a full line-up of mining products and solutions in Europe as well. We aim this will only be the start.”

Anglo American’s FutureSmart Mining on its way to tangible technology results

Automation, Base metals, Bulk handling, Coal technology, Comminution of minerals, Environmental, Explosives and blasting, IoT, Mineral processing, Mineral project development, Mining equipment, Mining industry recognition, Mining people, Mining policy, Mining safety, Mining services, Mining software, Mining techniques, Steel and iron ore, Sustainable mining, Water management, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

“It’s clear that the pressures on us are unsustainable, whether it is around our carbon footprint, water footprint, or physical footprint, and we are always looking for different ways to push us in this future direction where our footprint will be very different.”

Tony O’Neill, Anglo American Technical Director, knows the company he works for is up against it when it comes to retaining its reputation as one of the world’s leading sustainable mining companies.

It’s clear from the company’s 2018 sustainability report – which saw it achieve a best-ever performance in terms of injuries, a cut in energy use and an increase in greenhouse gas emission savings – that Anglo is going down multiple paths to reach its goals. O’Neill, who joined the company almost six years ago, believes Anglo’s FutureSmart Mining™ programme will play a major role in confronting and overcoming many of the issues it (and the industry) is facing.

“If you look at FutureSmart Mining, at its absolute essence, it is about footprint; how do you change the footprint of mining? How do you have a mine that draws no fresh water? Mines without tailings dams? Mines that look very different?” he told IM.

“It’s getting people to believe there is a different way for mining in an industry that has, to this point, been quite traditional. It is not going to happen overnight, but I think we have a genuine vision that is, in my view, quite feasible.”

IM spoke with O’Neill and Donovan Waller, Group Head of Technology Development, this week to get to the bottom of how technology is making Anglo ever more sustainable.

IM: Could you explain how the Anglo operating model facilitates and fosters innovation within the context of FutureSmart Mining?

TO: The Anglo American operating model is the chassis that underpins everything, giving us certainty in the delivery of our work. When you have got that stability – and the lack of variability – in your business outputs, it is much easier to overlay new technologies and processes. When you then see a difference in operating or financial results, you can confirm it is down to what you have implemented, rather than the underlying processes.

I look at it a little bit like a three-legged stool: you have the operating model on one leg, the P101 benchmark-setting on another, and technology and data analytics on the third leg. They all co-exist in this system and work off each other. Without one, the stool falls over.

The operating model has given us a drumbeat of delivery, and we get the licence to innovate because of this drumbeat.

IM: Do you think FutureSmart Mining is starting to be understood and valued by investors?

TO: They’re awake to it now. I think it is still in the early stages of the story, but they can see what we are doing and the ambition behind it. Ultimately, it will result in a different investment profile, or more investors because of it, but I am not sure that it’s translated in full up to now. The recognition has been more around the general results of the company.

With all these technologies coming through – much of them driven by higher levels of data and the ability to interrogate that data – the vision we imagined way out into the future, I think, is a lot more tangible than when we started out four years ago.

IM: Out of all the tailings dam elimination work you are carrying out (around passive resistivity, fibre-optics, micro-seismic monitoring, coarse particle recovery, polymers, and dry stacking), which innovation will have an impact on Anglo’s operations in the next three-to-five years?

TO: All of them. We started out with our tailings programme in 2013; in fact, our group technical standards were re-issued at the beginning of 2014 and they are now one of the main guidelines the ICMM (International Council on Mining and Metals) uses.

Tailings dams have always been at the back end of the mining process and, in a way, the science behind them has never been part of the mainstream operation. Our view, internally for many years, is tailings dams are one of the industry’s greatest risks.

“Our view, internally for many years, is tailings dams are one of the industry’s greatest risks,” Tony O’Neill says

Ultimately our aim is to eliminate tailings dams. Period. Coarse particle flotation – getting that coarser particle size that drains much more freely – is core to that and you can see a development pathway there. For example, with some of these new flotation techniques, we now only need 1% exposure of the mineral for it to be effective. In the past, it was much higher.

When we upgraded the capability of our tailings organisation, it became clear we needed to get a lot more data off these tailings dams. About three years ago, we started putting fibre-optic sensors into the dams. We have since developed, through our exploration arm, passive resistivity seismic monitoring, which basically tells you where your water sits in the dams. And, we’re putting into Quellaveco micro-seismic measuring techniques, which will be more granular again. You can see the day coming really quickly where tailings dams are a real-time data source for mining companies.

We’re also, with our joint venture partner Debswana, building the first polymer plant in Botswana, which could have an impact on dry tailing disposal.

The thing we need to crack – both ourselves and the industry – is how to dry stack at scale. At the moment, that is still a work-in-progress, but it is doable in the long term.

IM: How is the bulk sorter you have operating at El Soldado, which is equipped with a neutron sensor, working? How has it made a difference to recoveries and grades at the operation?

TO: With the bulk sorter, we’re taking packages of tonnes rather than individual rocks to enable us to get both speed and volume. At El Soldado, we are sorting in four tonne packages. You can adapt the sorting profile by the characteristics of the orebody. We’re generally looking to sort tonnages that are less than you would put in a haul truck body or bucket.

If you step right back, in the past, most processing plants wanted to blend to get an average feed. We are going the other way. We want to use the heterogeneity of the orebody to its advantage; the less mixing we can get ahead of these sorting processes, the better it is for recoveries.

Being able to remove an orebody above the cut-off grade alongside waste tonnages and upgrade the latter has led to an effective lift in head grade. It has been enabled by new sensing technology with a particular type of neutron sensor.

What we have seen in early results has surprised us on the upside. We thought we would see a 5% uplift in head grade, but in fact we have seen about 20% – to qualify that, it’s in its early stages.

O’Neill says the bulk sorting trial at El Soldado has seen about a 20% uplift in head grade in its early stages

If you take this to its logical conclusion, you can see the day coming where you would cut the rock – no drilling and blasting – immediately sort the rock behind the machine cutting it and distribute said rock efficiently into its value in use; you don’t have stockpiles, you have plants sensing the material right through and adapting in real time to the change in mineralogy. I think there is another 3-4% increase in recovery in that whole process when we get it right.

Our sweet spot when we created FutureSmart Mining was always the orebody and processing plants, more so than automation (although that is part of the potential mix). That was different to a lot of the other players in the industry. This focus could lead to the development of different types of plants; ones that are flexible, more modular and you can plug and play.

IM: Do you see these type of neutron sensors being applied elsewhere across a mine site?

TO: Yes, through processing plants and conveyors. In fact, we’re preparing for this on conveyors right now.

What we have found with all this new technology is that, when we implement it, quite often another opportunity arrives. They end up playing off each other, and that is the context for the bulk sorting and coarse particle flotation.

IM: How have Anglo’s Open Forums played into these developments?

TO: We have held eight Open Forums on sustainability, processing, mining, exploration (two), future of work, energy and maintenance.

Out of those eight, I think we have got around 10,000 ideas from them. These forums have been specifically designed where only about a third of participants are from the mining industry, with the other two thirds coming from the best and brightest analogous industries we can tap into – automobile, oil & gas, food, construction, even Formula 1 racing and NASA.

The reality is that out of those 10,000 ideas, the success rate is about 1:1,000, but the one that makes it is quite often a game changer.

IM: Going back to the bulk sorters, am I right in thinking you plan to put these into Mogalakwena and Barro Alto too?

TO: The aim is to have them across our business. At El Soldado, the copper angle is very important. The technology – the sensing and using the data – is probably a touch more advanced in copper, but we are building one currently in our PGMs business at Mogalakwena and a bit behind that, but ready to be built, is one in nickel, yes.

In terms of our programme, you will see them spread across our business in the next, hopefully, 18 months.

IM: Where does your approach to advanced process control (APC) fit into the FutureSmart Mining platform?

TO: We want to have APC in some form across all our business by the end of this year. We have probably come from a little behind some of the other players in the industry, but we’re pushing it quite aggressively to give us the platform for data analytics. The upside we have seen just by putting the process control in so far has surprised me a bit – in a good way; power reductions, throughput, having this different level of control. All of it has been pleasing.

We spent about 12 months looking at the whole data analytics space to see how we were going to implement our solution. If you look around at the sector, everyone wants to be involved and profit share. If you add it all up, you could end up with not a lot of profitable pieces at the end. We have strategically chosen the pieces we think are important to us and our profit pool and have been happy to be a little looser on some of the non-core areas.

The other key plank to the APC is that we own the data. The reality is, in the new world, data is like a new orebody and we’re not willing to let go of that.

IM: Your Smart Energy project involving a haul truck powered on hydrogen has certainly caught the attention of the market: how did you come up with this innovation?

TO: Initially, we couldn’t make renewables work from an investment criteria perspective – it was always close, but never quite there. Donovan’s team then took an approach where they said, ‘forget the normal investment criteria. All we want to do is, make the business case wash its face.’ In doing so, it enabled them to oversize a renewable or photovoltaic energy source – the power plant – using that extra power to produce hydrogen and putting that hydrogen to use in the haulage fleet. Re-engineering the haulage fleet gave us the business outcomes we were looking for.

DW: These business cases bring you to temporary barriers. When you hit that temporary barrier, people normally stop, but what we said was, ‘OK, just assume it is not there and go forward.’ That brought the whole business case back again by looking at it differently again.

Anglo’s Smart Energy project is aiming to power a 300-t class truck with hydrogen fuel

IM: Where is this project likely to be situated within the group?

TO: We’re still not 100% fixed as the initial work will be done here (the UK). You are talking about quite specialist skills working with hydrogen.

When the system has gone past its initial testing, it will go to a site, probably in South Africa, but we are not 100% locked into that at this point.

IM: On the 12-month timeline you have given, when would you have to be on site?

TO: The infrastructure will be pre-built here in the UK. We’re effectively testing it here. In a way, the physical truck is the easy bit.

It’s going to be using a 300-t class truck. The guys have already done quite a bit of the detailed measuring and the design elements are well under way.

We’ve also taken the approach to use pre-approved technology, which Donovan can talk about.

DW: This minimises the risk on the first go and allows us to, later, tailor it. For example, if you don’t have a right sized fuel cell currently available off-the-shelf, you just use multiple standard-size fuel cells for now. Then, when you get into the final version you could tailor them into something more specific.

IM: On mechanised cutting, you recently mentioned the building of a “production-sized machine” for at least one of your mines in South Africa. Is this a variant of the Epiroc machine – the Rapid Mine Development System – you have been using at Twickenham?

TO: It’s the next generation of machines. It’s fair to say that, in the last 12 months, the technology has come to the point where we are confident it is viable.

What we’re looking for is a fundamental breakthrough where, for example, we can take the development rates up three or four times from what you would usually expect. That is what we’re chasing. It would involve some sort of pre-conditioning of the rock ahead of the cutting, but the cutting, itself, works.

For us, mechanised cutting is a real solution to some of the safety issues we have had on our plate. Regardless of whether it goes into South Africa or another underground mine, we see it as a key part of our future underground design and operation.

IM: What type of rock pre-conditioning is this likely to be?

TO: I think around the world, people are looking at electricity, microwave, laser, a whole suite of things. None of them have yet quite landed, but they all have potential.

IM: Where does haul truck automation fit into the pipeline for Anglo American?

TO: All the equipment we buy, going forward, will be autonomous-capable, which means we can run it in either format (manned or unmanned). You are then left with a number of decisions – have you got the design to retrofit automation? Is there a safety issue to be considered? Is there a weather issue to contend with? There are a whole series of gates that we’ll take it (automation projects) through.

It’s good to go back to P101 here. Where P100 is getting all of our key processes to world-class benchmarks, P101 is about establishing a new benchmark. By definition, if you get your operations to that point, the gap between that manned performance and autonomous performance is not that great.

Autonomy is part of our future armoury, but when and where and how, we’ll have to wait and see. For example, we are currently looking at the option of autonomous haulage trucks at one of our open-cut mines in Queensland.

When you look at our portfolio of operations, it’s often a more complex environment than when you are just working in the wide open Pilbara.

RNC Minerals studying trolley assist, automation at Dumont nickel-cobalt project

Automation, Base metals, Energy minerals, Environmental, Mineral project development, Mining equipment, Mining project news, Mining services, Power supply for mines, Sustainable mining, , , , , , , , , , ,

The latest feasibility study on RNC Minerals’ jointly-owned Dumont nickel-cobalt asset in Quebec, Canada, has identified the potential for both electrification and automation of the open-pit haulage fleet at the project.

The DFS, completed by Ausenco, showed that initial nickel production at Dumont could come in at 33,000 t/y, before ramping up to 50,000 t/y in a phase two expansion. This would result in some 1.2 Mt of nickel in concentrate output over the 30-year life, with an initial capital expenditure estimate of $1 billion.

This initial investment would be paid back with a $920 million after-tax net present value (NPV, 8% discount) and 15.4% post-tax internal rate of return, factoring in a nickel price of $7.75/Ib (>$17,000/t) and a US$/C$ exchange rate of 0.75, the company said.

Dumont, as envisaged in the DFS, would use conventional drilling and blasting, with loading by a combination of hydraulic excavators and electric rope shovels into trucks ranging in size from 45 t to 290 t. The process plant will be constructed in two phases. Phase one will have an initial average throughput of 52,500 t/d using a single SAG mill and two ball mills for grinding, desliming using cyclones, conventional flotation and magnetic separation, to produce a nickel concentrate also containing cobalt and PGEs. Phase two throughput will be doubled to 105,000 t/d in year seven by mirroring the first line.

Around 42 Mt of overburden will be pre-stripped prior to start-up of operations. The life-of-mine plan excavates 2,100 Mt of material, including 1,000 Mt of ore, over an open-pit life of 24 years. After open-pit operations cease in year 24, 398 Mt of stockpiled ore will remain to support continued production through year 30.

One of the noticeable changes to the previous feasibility study from 2013 was the electrification of the fleet in the mine plan.

The company, which jointly owns Dumont with Arpent Inc, currently plans to increase the electrification of Dumont by incorporating trolley assist on the planned main ramps. RNC said this will reduce cycle times, and reduce diesel consumption by over 35% (approximate reduction of 450 million litres over the life of mine), which, in turn, will cut greenhouse gas emissions by 1.2 Mt of CO2 equivalent, the company said.

And, among three “additional upside opportunities” listed in the DFS highlights was the use of haulage automation, which could potentially improve the NPV by some $75-115 million, the company estimated.

RNC said: “As autonomous equipment has been employed in open pits for over a decade and the global fleet currently approximates a combined 400 units of haul trucks and blasthole drills, automation is rapidly becoming proven technology.”

As a result, the company engaged an industry expert, Peck Tech Consulting, to assess the suitability of Dumont for automation.

“Based on Peck Tech’s prefeasibility-level assessment, the implementation of an Autonomous Haulage System could reduce the peak truck fleet by 20% and reduce site-wide all-in sustaining costs by over 3%,” RNC said.

“Further potential could be achieved with an Autonomous Drilling System (ADS),” the company added, saying it is continuing discussions with various mining equipment suppliers to understand the impacts and benefits in greater detail.

Lycopodium to lead PFS for battery materials refinery project

Base metals, Energy minerals, Mineral exploration, Mineral project development, Mining services, , , , , , , , , , , , , , , , , ,

Queensland Pacific Metals (QPM) has appointed Lycopodium Minerals Pty as the Lead Engineer for the prefeasibility study on the Townsville Energy Chemicals Hub (TECH) project in Queensland, Australia.

Pure Minerals, the parent company of QPM, said: “With the acquisition of QPM being approved by shareholders and in the process of being finalised, Pure Minerals is excited to launch its planned battery materials refinery as the Townsville Energy Chemicals Hub.”

The TECH project will produce nickel and cobalt sulphate chemicals required for the battery energy storage sector, with QPM immediately commencing the PFS for a 600,000 t/y battery materials refinery producing approximately 25,000 t/y of nickel sulphate and 3,000 t/y of cobalt sulphate and other valuable co-products, Pure Minerals said.

The previous scoping study envisaged annual primary production of around 25,400 t/y of nickel sulphate and 3,000 t/y of cobalt sulphate (containing 5,760 t of nickel and 630 t of cobalt), alongside some 221,000 t/y of hematite, 8,700 t/y of alumina and 4,600 t/y of magnesium oxide. This came with construction capital costs of $297 million.

Lycopodium Minerals Pty is a subsidiary of well-regarded engineering company, Lycopodium, which has experience applicable to the TECH project, according to Pure.

This includes:

  • Being highly active in the battery metals space, having undertaken many feasibility studies for clients in nickel, cobalt, lithium and graphite;
  • Completing a feasibility study for Direct Nickel Projects Pty or a nominal processing plant using the DNi Process™ (a pilot plant example from CSIRO pictured), which the TECH project will be using, and;
  • Completing feasibility studies for other nickel projects incorporating downstream processing to produce battery chemicals, including BHP’s Nickel West project and Cleanteq’s Sunrise project.

The key responsibilities for Lycopodium under its contract with QPM are process, process services and utilities design and engineering; preparation of project capital and operating cost estimates; and compilation of the PFS report, including integration of studies relating to other work packages.

Lycopodium has also agreed to accept shares in Pure Minerals as consideration for around 20% of its estimated fees, according to Pure Minerals.

The PFS is expected to be completed in the September quarter.

Lycopodium Minerals Managing Director, Rod Leonard, said: “The outlook for battery metals is positive and Lycopodium is well positioned to carry out this body of work, having completed a wide range of studies for major, mid-tier and junior clients in this space.”

Canada Cobalt Works moves to protect Re-2OX process following SGS testing

Base metals, Energy minerals, Environmental, Metallurgy, Mineral exploration, Mineral processing, Mining equipment, Mining services, Precious metals, , , , , , , , , , ,

Canada Cobalt Works says it has made important breakthroughs in its proprietary and environmentally green Re-2OX process for the recovery of cobalt, precious metals and base metals, and will look to submit a patent application to protect the technology.

New testing using SGS Lakefield in Peterborough, Ontario, Canada, has highlighted further optimisation of Re-2OX can allow the recovery of silver and copper for the first time, while also increasing the recovery rates for cobalt and nickel.

“In refining the Re-2OX process through a one-step leach extraction, overseen by Canada Cobalt adviser Dr Ron Molnar, SGS has recovered >99% cobalt, >99% silver, 99% nickel and 99% copper while removing 99% of arsenic from a composite of gravity concentrates,” the company said.

The gravity concentrates tested at SGS were from the historic Castle mine, in Ontario, classified as waste material and grading 10.2% Co, 11,000 g/t Ag, 0.26% Cu, 1.49% Ni and 45.1% arsenic.

Re-2OX skips the normal smelting process to create battery-grade cobalt sulphate, according to Canada Cobalt Works. The company said nickel-manganese-cobalt (NMC) battery-grade formulations are also in the pipeline.

“In addition, the ability of Re-2OX to achieve exceptionally high recovery rates for both cobalt and silver, plus nickel and copper, while also removing 99% of arsenic, expands the potential of the Castle mine given Phase 1 underground results released February 19, 2019, and a second phase starting soon,” the company said. “Furthermore, Re-2OX is a value-driver for the company’s planned tailings programs at Castle and elsewhere in the district, and will also be used by Canada Cobalt to immediately build a new model of ‘streaming’ opportunities for the company with respect to other battery metal projects while protecting the process.”

Given the current optimisation level of Re-2OX, and the growing importance of this hydrometallurgical process to Canada Cobalt and its shareholders, the company has now initiated the process of submitting a patent application for this proprietary metal extraction method.

Frank J Basa, Canada Cobalt President and CEO, said: “The fact that SGS has demonstrated that Re-2OX can very efficiently recover a broad set of metals from arsenic-rich material, ranging from low grade to high grade, further de-risks the Castle mine project and expands opportunities to build shareholder value. Further Re-2OX optimisation will target the recovery of gold.”

ALTA retains metallurgical innovation focus for 2019 event

Base metals, Energy minerals, Environmental, Metallurgy, Mineral processing, Mining events, Precious metals, Water management, , , , , , , , , , , ,

The organisers of ALTA are gearing up to welcome the international metallurgical community to Perth, Western Australia, with the annual conference now just a month away.

ALTA has developed a reputation as a leading technical metallurgical-oriented event, attracting senior industry representatives from around the globe. The conference had a record attendance last year and is hoping to hit new heights in 2019.

ALTA 2019, to be held on May 18-25 at the Pan Pacific Perth, promises to continue the tradition of delivering high-quality technical content for professionals from the metallurgical and related sectors, the organisers said.

Conference Founder and Chair, Metallurgical Consultant Alan Taylor, said: “For the past 23 years, this event has provided a dynamic forum for sharing ideas, innovations, technologies and projects. Both ALTA and the industry have come a long way since our first conference in 1995, but our focus on the importance of metallurgical innovation remains the same.”

The emphasis of the program is practical rather than academic, and the themes running through the conference are the various aspects of technology and project development. “Each session has been carefully crafted to provide the best value for delegates and includes an insightful and authoritative keynote address,” the organisers said.

Taylor said: “Over many years, the conference has evolved to meet the demands of the industry. For example, in recent years, the program has been expanded to include the current hot topics of lithium processing, and in-situ recovery (ISR) and to reflect the rapidly developing field of battery metals.”

The event now incorporates separate dedicated sessions for nickel-cobalt-copper, uranium-rare earths, gold-precious metals, ISR and lithium processing.

The organisers said: “Panel discussions and Q&A are a major highlight of ALTA events, providing a unique opportunity for knowledge sharing, discussion and debate with highly-experienced professionals. Following the conference, detailed notes are published for the benefit of the wider industry and are provided via the ALTA Free Library.”

The signature nickel-cobalt-copper combined sessions are spread over three days, encompassing segments on battery metals, laterite processing, leaching process development and other key topics. The highlight of the sessions is the Pressure Acid Leaching (PAL) Forum and Panel Q&A, which acknowledges the 20th anniversary of the commissioning of the landmark Bulong, Cawse, and Murrin Murrin nickel-cobalt PAL projects, according to the organisers.

The uranium-REE sessions, organised in co-operation with the International Atomic Energy Agency (Austria), for the fifth year, are held on May 23. They feature a Developments in IX Forum and Panel Q&A.

ALTA has partnered with Curtin Gold Technology Group (Perth) for the Gold-PM sessions, also on May 23, with The Forum and Panel Q&A focussed on fit-for purpose leaching systems, ALTA’s organisers said.

On the final day of the conference, the ISR sessions will run in parallel with the lithium processing sessions, each offering its own panel discussion, “providing a rare opportunity for open discussion and debate”.

The ISR sessions are organised in partnership with CSIRO (Perth), which will lead the Forum and Panel discussion on Enhancing ISR Permeability. The Novel Lithium Processes Forum and Panel Q&A is already attracting international interest, according to organisers.

By popular demand, this year’s ALTA will also introduce additional flexibility for attendees by including single-day and corporate shared registrations options, the organisers said, on top of a short course program. The latter three practically-oriented short courses are presented by Alan Taylor, who draws from his extensive first-hand experience gained in 40-plus years with major engineering firms and as an independent consultant.

“The courses, a valuable introduction for newcomers and a useful refresher for old hands, typically attract a highly-international audience,” the organisers said, adding that the 2019 courses cover nickel-cobalt laterites, copper SX/EW and heap leaching of copper, gold, uranium and nickel.

The organisers said this year’s exhibition area has been expanded to meet increased demand, with the floor boasting Australia and international exhibitors.

Pre-sink of Shaft 2 at Ivanhoe’s Platreef underground project months away

Base metals, Bulk handling, Explosives and blasting, Mine shafts and equipment, Mineral project development, Mining project news, Mining services, Precious metals, , , , , , , , , , , ,

In a review of exploration and development activities in 2018, Ivanhoe Mines has gone into some detail on developments at Shaft 2 at the Platreef PGM-nickel-copper-gold project on the northern limb of South Africa’s Bushveld Complex.

This follows a project update issued just after the Mining Indaba event in February.

Shaft 1, expected to reach its final depth of 982 m below surface in early 2020, will ultimately become the primary ventilation shaft during the project’s initial 4 Mt/y production case, but Shaft 2, around 100 m northeast of Shaft 1, will provide primary access to the mining zones.

Ivanhoe said Shaft 2 will have an internal diameter of 10 m, will be lined with concrete and sunk to a planned, final depth of more than 1,104 m below surface.

It will be equipped with two 40-t rock-hoisting skips capable of hoisting a total of 6 Mt/y of ore – the single largest hoisting capacity at any mine in Africa. The headgear for the permanent hoisting facility was designed by South Africa-based Murray & Roberts Cementation.

Ivanhoe said nine blasts were successfully completed in 2018 enabling the excavation of Shaft 2’s box cut to a depth of approximately 29 m below surface and the construction of the concrete hitch (shaft collar foundation) for the 103-m-tall concrete headgear (preparations pictured here) that will house the shaft’s permanent hoisting facilities and support the shaft collar.

Excavation of the box cut and construction of the hitch foundation is expected to be completed in the June quarter, enabling the beginning of the pre-sink, that will extend 84 m below surface, it said.

In July 2017, Ivanhoe, which indirectly owns 64% of the Platreef project through its subsidiary, Ivanplats, issued an independent, definitive feasibility study (DFS) for Platreef covering the first phase of production at an initial mining rate of 4 Mt/y. The DFS estimated Platreef’s initial, average annual production rate would be 476,000 oz of platinum, palladium, rhodium and gold, plus 21 MIb (9,525 t) of nickel and 13 MIb (5,897 t) of copper.