Tag Archives: nickel

Metso Outotec to modernise Norilsk Nickel’s Nadezhda smelting line

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Metso Outotec has been awarded a landmark contract by PJSC MMC Norilsk Nickel to modernise one of the company’s two existing smelting lines at their Nadezhda Metallurgical Plant in Norilsk, Russia.

The contract value is approximately €90 million ($110 million), and the order has been booked in Metso Outotec’s December quarter 2020 order intake.

Metso Outotec’s contract includes engineering and delivery of a nickel flash smelting furnace and a heat recovery boiler with related automation and advanced digital products.

Replacing the existing smelting line with the latest process technology and furnace structures will significantly increase the line’s capacity and availability, reduce metal losses and ease maintenance, according to the mining OEM. The new line will also allow for the easy connection and efficient operation with potential future sulphuric acid production and neutralisation projects. The delivery of the equipment will take place during the first half of 2022.

Sergey Dubovitsky, Senior Vice President, Strategy, Strategic Projects, Logistics & Procurement at Norilsk Nickel, said: “Metso Outotec is a long-term partner of Norilsk Nickel, supplying state-of-the-art equipment and technologies. Our cooperation allows us to solve the most important production and technological issues, such as increasing the reliability and efficiency of production.”

Jari Ålgars, President of Metso Outotec’s Metals business area, added: “Norilsk Nickel operates the world’s largest nickel and palladium deposit in Russia. We are very committed to our long partnership with Norilsk Nickel, and we are pleased to have been awarded the contract to modernise their smelting line at Nadezhda. Our unique process expertise and sustainable technologies enable the design and delivery of a world-class smelting process that meets today’s and future production requirements.”

Metso Outotec is a leading supplier of smelting technology, with about 40 operational smelting lines around the world. The company claims its Flash Smelting Process is the cleanest smelting method available, giving high recovery of metals with low investment and operating costs.

FQM awards Ravensthorpe nickel E&I package to SIMPEC

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SIMPEC says it has been contracted by First Quantum Minerals (FQM) to deliver an electrical and instrumentation (E&I) package at the Ravensthorpe nickel operations’ Shoemaker-Levy project, in Western Australia.

This material, newly awarded contract is SIMPEC’s first with FQM, the company said.

The contract scope is for the E&I portion of work for Shoemaker-Levy, with the value expected to be around A$9 million ($6.8 million).

The works are planned to commence immediately and be completed by mid-2021, the WestStar Industrial subsidiary says.

With FQM restarting Ravensthorpe in early 2020, it has been expanding into a second stage nickel laterite deposit, Shoemaker-Levy, to provide the operation with a long-term life of around 30 years.

Glencore’s ‘net-zero emissions’ 2050 pathway includes use of BEVs

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Glencore has become the latest mining major to plot a path to reach “net-zero emissions”, with a plan that includes the use of battery-electric vehicles at one of its underground operations in Canada and renewable power at its South Africa ferroalloy sites.

The company has committed to reducing its total emissions footprint – Scope 1, 2 and 3 – by 40% by 2035 compared with 2019 levels, with an ambition of achieving “net zero” on its total emissions footprint by 2050.

It says it will achieve this by managing its operational (Scope 1 and 2) footprint; reducing Scope 3 emissions through investing in its metals portfolio, reducing its coal production and supporting deployment of low-emission technologies; allocating capital to prioritise “transition metals”; collaborating to enable greater use of low-carbon metals and support progress towards technological solutions; supporting uptake and integration of “abatement”; using technology to improve resource use efficiency; and taking a transparent approach to its sustainability reporting.

Ivan Glasenberg, Glencore Chief Executive Officer, said: “A significant portion of Glencore’s earnings is derived from the metals and minerals that enable the transition to a low-carbon economy. As the world prioritises renewable technologies, battery storage and electric mobility, our business is well-positioned to meet the growing demand for the commodities that underpin these future-focused industries. Our ambition to be a net zero total emissions company by 2050 reflects our commitment to contribute to the global effort to achieve the goals of the Paris Agreement.”

Getting down to specifics, Glencore, in a supporting presentation, singled out its ferroalloys business. These operations, in South Africa, represent the highest Scope 1 and 2 emitting industrial business within Glencore.

The company said it had set a specific target of a 10% reduction of its Scope 1 and 2 emissions by 2025 based on a 2016 baseline as part of the “broader Glencore commitment”.

It said the business was currently investigating the feasibility of working with a third-party independent power purchaser for the installation and supply of around 400 MW of renewable power, with the potential to reduce Scope 2 emission by some 1.17 Mt/y.

Glencore said its Rhovan open-pit mine and smelter complex, which mainly produces ferrovanadium and vanadium pentoxide, was, furthermore, working on a potential community involvement project to install a solar farm on-site that will deliver 11 MW for nearly nine hours a day at 80% efficiency.

“The ferroalloys business is also investigating a number of projects to convert waste gas into power at its smelters,” it added. This most likely includes the work it is carrying out with Swedish Stirling and its container-based PWR BLOK 400-F energy recycling solutions.

Looking to the uptake of new technologies to speed up its decarbonisation transition, Glencore referenced its Sudbury Integrated Nickel Operations, in Canada, and, specifically, its Onaping Depth project.

This deep nickel-copper mine includes the construction of a winze from the 1,200 m level laterally off the workings of Craig mine to access some 14 Mt of ore 2,500 m from surface. Currently under development, it has been designed to utilise state of the art battery-electric mobile mining equipment, maximised real-time remote operation, and monitoring and management utilising advanced Wi-Fi systems, Glencore said.

The benefits of using such technology include the elimination of diesel emissions and the reduction of noise pollution.

“The design includes the use of innovative ventilation technology, with cooling systems designed to be energy efficient, while coping with ambient rock temperatures that can reach 400°C at depth,” Glencore said.

On battery-electric vehicle technology, specifically, the company said it expects these zero-emission vehicles to play an increasingly important role in underground operations. It added: “going forward, new mines will look to utilise this technology”.

Glencore previously tested a proof-of-concept battery-electric vehicle trial based on the Cat R1300G LHD at one of its Sudbury Integrated Nickel Operations’ underground mines, which could have helped form the basis for the application of this technology at Onaping Depth.

After this trial, the company said: “Through using electric vehicles, Onaping Depth is expected to reduce its energy usage by 44% for ventilation systems and by 30% for cooling equipment, compared to an equivalent diesel-fuelled operation.

“Using EVs, Sudbury INO’s new mine will reduce greenhouse gas emissions by 44% and deliver considerable cost savings through reduced fuel and energy usage.”

Ivanplats eyes Platreef project fast track following Shaft 1 sinking work

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An integrated development plan (IDP) on the Platreef palladium, platinum, rhodium, nickel, copper and gold project in South Africa has shown the potential to fast-track the development into production.

Consisting of an updated feasibility study and a preliminary economic assessment, the IDP marks an “important step in our vision of building and operating the world’s next great precious metals mine, together with our local community and Japanese partners”, Ivanhoe Mines Co-Chair, Robert Friedland, said.

Ivanhoe indirectly owns 64% of the Platreef project through its subsidiary, Ivanplats. The South Africa beneficiaries of the approved broad-based, black economic empowerment structure have a 26% stake in the project, with the remaining 10% owned by a Japanese consortium of ITOCHU Corporation, Japan Oil, Gas and Metals National Corporation, and Japan Gas Corporation.

The Platreef 2020 feasibility study builds on the results of the 2017 feasibility study and is based on an unchanged mineral reserve of 125 Mt at 4.4 g/t 3PGE+Au, project designs for mining, and plant and infrastructure as in the 2017 study; except with an increased production rate from 4 Mt/y to 4.4 Mt/y, in two modules of 2.2 Mt/y, for annual production of more than 500,000 oz of palladium, platinum, rhodium and gold; plus more than 35 MIb of nickel and copper.

The 2020 feasibility study includes an updated production schedule based on the current project status, costs and economic assumptions, with the schedule for the latest study driven by the sinking of the project’s second, larger shaft (Shaft 2), where early works have commenced. The 2020 study envisions Shaft 2 equipped for hoisting in 2025, allowing for first concentrate production in the latter half of the year. The initial capital cost for the Platreef 2020 feasibility study is estimated at $1.4 billion.

The Platreef IDP also includes the Platreef 2020 preliminary economic assessment, which is an alternate, phased development plan that fast-tracks Platreef into production. The plan uses the project’s first shaft (Shaft 1) for initial hoisting and mine development, with 825,000 t of annual total rock hoisting capacity, of which 125,000 t is allocated for development rock. The alternate plan envisions building an initial concentrator with a capacity of 770,000 t/y, and could produce first concentrate in mid-2024.

“The recently-completed sinking of Shaft 1 has created the opportunity to access early, high-grade tonnes in this scenario,” the company said. “While the 700,000 t/y initial mine is being operated using Shaft 1, there would be opportunities to refine the timing of subsequent phases of expanded production, which is driven by the sinking of Shaft 2.”

Once completed, two 2.2 Mt/y concentrator modules would be commissioned, and the initial concentrator would be ramped up to its full capacity of 770,000 t/y; increasing the steady-state production to 5.2 Mt/y for annual production of more than 600,000 oz of palladium, platinum, rhodium and gold, plus over 40 million pounds of nickel and copper. The initial capital cost for 700,000 t/y under the Platreef 2020 assessment is estimated at $390 million – substantially lower than the Platreef 2020 feasibility study that requires Shaft 2 for first production.

Detailed engineering has commenced on the mine design, 770,000 t/y concentrator and associated infrastructure for the phased development plan, which will be incorporated into an updated feasibility study in 2021, Ivanhoe said. The Shaft 1 changeover will take place simultaneously in preparation for permanent hoisting by early 2022. The budget for 2021 is $59 million, which includes $10 million for commencement of the construction of the headframe to the collar of Shaft 2.

“The Platreef IDP reflects the first phase of development for the Platreef Mine,” the company said. “It is designed to establish an operating platform to support potential future expansions to 12 Mt/y and beyond, as demonstrated in previous studies, which would position Platreef among the largest platinum-group metals producing mines in the world, producing in excess of 1.1 Moz of palladium, platinum, rhodium and gold per year.”

Friedland said: “The thick and flat-lying nature of the high-grade mineralisation of Platreef’s Flatreef deposit will accommodate the use of mechanised and state-of-the-art, automated mining techniques; allowing us to efficiently and safely bring material to surface to produce precious metals vital to a proliferation of modern technologies.”

Marna Cloete, Ivanhoe’s President and CFO, said approximately 60% of the mine’s tailings will be sent back underground to fill mined-out voids, and the remainder will be treated using sustainable, dry-stacking technology.

Mining zones in the current Platreef mine plan occur at depths ranging from around 700-1,200 m below surface. Once expanded mine production is achieved, primary access to the mine will be by way of a 1,104-m-deep, 10-m-diameter production shaft (Shaft 2). Secondary access to the mine will be via the 996-m-deep, 7.25-m-diameter ventilation shaft (Shaft 1) that recently has been sunk to its final depth. During mine production, both shafts also will serve as ventilation intakes. Three additional ventilation exhaust raises (Ventilation Raise 1, 2, and 3) are planned to achieve steady-state production.

Mining methods included in the studies are longhole stoping and drift-and-fill. Each method will use cemented backfill for maximum ore extraction. The production plans in both the PEA’s initial five-year drift-and-fill mining operation off of Shaft 1 and the larger feasibility study expansion are focused on maximising higher-grade areas, which was achieved through optimisation based on stope locations, stope grades, mining method, and zone productivities. The orebody was targeted to recover around 125 Mt at the highest net smelter return.

The ore will be hauled from the stopes to a series of internal ore passes and fed to the bottom of Shaft 2, where it will be crushed and hoisted to surface.

Comminution and flotation test work has indicated that the optimum grind for beneficiation is 80% passing 75 micrometres. Platreef ore is classified as being ‘hard’ to ‘very hard’ and thus not suitable for semi-autogenous grinding; a multi-stage crushing and ball-milling circuit has been selected as the preferred size reduction route, Ivanhoe said.

Improved flotation performance has been achieved in test work using high-chrome grinding media as opposed to carbon steel media. The inclusion of a split-cleaner flotation circuit configuration, in which the fast-floating fraction is treated in a cleaner circuit separate from the medium- and slow-floating fractions, resulted in improved PGE, copper and nickel recoveries and concentrate grades.

A two-phased development approach was used for the flowsheet design comprising a common three-stage crushing circuit, feeding crushed material to milling-flotation modules. Flotation is followed by a common concentrate thickening, concentrate filtration, tailings disposal and tailings-handling facility. The phased approach allows for increased processing flexibility and introduces process redundancy while allowing for phasing of capital and mine ramp-up, the company said.

To further evaluate optimisation opportunities and confirm additional detail design parameters, a mini pilot plant test work program is proposed and will be undertaken as part of the project implementation phase.

The proposed tailings storage facility (TSF) will be developed as a dry stack TSF with an estimated operating life of 32 years. During this time, some 55.4 Mt of tailings will be stored within the dry stack TSF, with the remainder of the tailings to be used as backfill in the underground mine. The dry stack TSF design also caters for an 8 Mt/y ramp-up in production to be explored in future studies.

The dry stack TSF is compliant in terms of required tonnage profile production split between the backfill requirement and dry stack TSF of 35% on average, but is conservatively designed for 40% of non-ore material reporting to the TSF.

Since the Platreef 2017 FS, a hybrid paddock deposition methodology was proposed; however, Ivanplats has decided to change the TSF deposition methodology from upstream design to dry stacking in the Platreef 2020 studies.

Following a study undertaken by Golder Associates Africa in December 2016, it was concluded that stacked tailings storage facilities are deemed to be safer in that there is no hydraulic deposition, hence the risk will be minimal to flood the surrounding areas with tailings in the unlikely event of a catastrophic failure.

“Stacked tailing storage facilities are more water efficient in that the majority of water in the tailings is captured in the dewatering plant, pumped directly back to the concentrator and re-used within the process,” the company said.

The stacked facility will comprise a starter dam constructed primarily of rock fill, engineered tailings, nominally compacted tailings, and random fill. Tailings will be delivered to the dewatering plant situated at the stacking facility using the same pumping systems from the processing plant. Dried tailings will be delivered to the stacking facility using load and haul transportation with trucks from the dewatering plant.

Aside from the rock fill in the starter dam and drainage elements, which include a return water dam, the facility will be developed using dewatered tailings. The infrastructure will have to be in place upon start-up.

For the Platreef 2020 PEA development scenario, it is envisaged to use the approved rock dump footprint within the immediate Platreef mine and concentrator areas, as a dry stacking tailings facility for the initial 700,000 t/y mine. Golder Associates currently is performing the design work to apply for the relevant licences and/or amendments to the existing authorisations.

Monadelphous pockets more WA iron ore, nickel work with Rio and BHP

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Engineering company Monadelphous Group says it has secured new construction and maintenance contracts with both Rio Tinto and BHP, with a combined value of around A$60 million ($44 million).

The company has been awarded three three-year master services contracts with Rio Tinto for the delivery of sustaining capital projects across various mine sites and port operations throughout the Pilbara region in Western Australia (stockyard machines at Rio’s West Angelas iron ore operation, pictured), it said.

This work includes structural, mechanical and piping, electrical, instrumentation and controls, and non-process infrastructure projects.

Monadelphous also secured a three-year contract, with a two-year extension option, with Rio Tinto to provide mechanical, electrical and access maintenance services for fixed plant shutdowns at Rio’s Gove alumina operations in the Northern Territory of Australia.

In addition, Monadelphous secured a 12-month extension to its existing mechanical and electrical maintenance, shutdown and project services contract across BHP’s Western Australian nickel operations.

Minetek to deliver ventilation solution to Mincor’s Kambalda nickel ops

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Minetek says it has been awarded a tender to supply the ventilation requirements for the Cassini, Otter Juan and Long declines at Mincor’s Kambalda nickel operation in Western Australia.

The award, which came through Mincor’s contracting partner, Pit N Portal, includes both the secondary and primary vents across all three declines and follows on from a close collaboration over the last six months between the three parties, Minetek says.

Steve Verstegeen, CEO for Pit N Portal, said: “We are always looking at new innovations and technologies that will benefit both us and our clients. Minetek has been able to display that with the use of their modern ventilation technology, where we can look to see production increases through faster re-entry times and reduced capital costs in the total life of the development, delivering value to both us and Mincor.”

Minetek General Manager – Ventilation, Jeremy Sutherland, said: “From the start of early discussions with Mincor and Pit N Portal, it was very evident that both parties wanted to deliver the maximum amount of value for their stakeholders/shareholders in all aspects of the developments. This really excited our team, as it gave us the opportunity, through the release of forecasted production information and mine plans from Mincor and Pit n Portal, to display that we could deliver this through energy savings, production increases and reduced capital expenditure throughout the lifecycle of the developments.”

The “Mincor Nickel Operations” DFS from earlier this year confirmed the potential to develop a five‐year operation forecast to produce 71,000 t of nickel and 5,000 t of copper on a life-of-mine basis at Kambalda, with peak annual nickel-in-concentrate production of more than 16,000 t/y at a forecast life of mine unit cost of $2.35/lb.

RUC Mining, Barminco keep Panoramic’s Savannah nickel restart plan on track

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Panoramic Resources says underground development at the Savannah nickel project in Western Australia is moving ahead as planned, with both its raisebore contractor and contract miner striving towards the ASX-listed company’s first half 2021 restart goal.

In a progress update, the company said mining contractor, Barminco, had completed the 468 m horizontal underground development drive, connecting with the vertical ventilation shaft to complete Fresh Air Raise (FAR #3) development at Savannah North, in late September.

Since then, specialist raiseboring contractor, RUC Mining, has been setting up the raisebore rig on the surface and installing the reamer head at the 1675 RL, which was developed to intersect into the existing FAR #3 raise.

“This complicated and critical task was completed safely and efficiently as planned,” Panoramic said on October 19. “RUC is tasked with the FAR #3 back-reaming, which commenced over the weekend and expected to be completed in the March 2021 quarter.”

A total of 354 m will be back reamed at a diameter of 3.85 m, according to the company. This is planned to provide sufficient ventilation to support future full-scale mining operations from Savannah North in line with the Mine Plan released in late July.

Managing Director and CEO, Victor Rajasooriar, said: “We now have a firm foundation to recommence underground pre-production development next month, to complete ventilation works for Savannah North and complete areas of capital development to lay further groundwork for a potential restart of operations. This work will be concluded towards the end of the March quarter 2021 and we expect to be in a position where the project is capable of being restarted in the first half of 2021.”

The Savannah Mine Plan outlined a mine life of around 13 years, with the majority of ore sourced from the Savannah North orebody. Average annual production for years 1-12 would be 8,810 t of nickel, 4, 579 t of copper and 659 t of cobalt in concentrate, with all-in costs for these years of $5.27/lb of payable nickel, net of copper and cobalt by-product credits.

US DFC investment paves way for Piauí nickel-cobalt production, TechMet says

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The US International Development Finance Corp (DFC) has made a $25 million investment into TechMet Ltd, a private investment company with a portfolio of projects that produce, process and recycle metals tied to the production of electric vehicles (EVs), renewable energy systems and energy storage.

The funds will be used to bring into initial commercial production one of TechMet’s core investments, Brazilian Nickel Plc, which will be a low-cost nickel-cobalt producer in Piaui, in north-eastern Brazil, it said.

Piauí is a nickel laterite heap leaching project that has a combined measured and indicated JORC compliant resource of 72 Mt at 1% Ni and 0.05% Co. Brazilian Nickel has previously completed a large-scale demonstration of the heap leaching, purification and recovery of nickel and cobalt from the Piauí ore (pictured).

The DFC investment, part of TechMet’s Round 2 equity raising, follows on the heels of US President, Donald Trump, signing an Executive Order and declaring a National Emergency to expand the domestic mining industry, support mining jobs, alleviate unnecessary permitting delays, and reduce the US’ dependence on China for critical minerals.

Nickel and cobalt are two key ingredients in the production of lithium-ion batteries that power EVs and provide renewable energy storage. As battery technologies transform the global mobility and energy landscape, the demand growth for these metals is expected to accelerate.

TechMet said: “While China has built a position of overwhelming supply chain dominance, the United States’ continued reliance on imports for the supply of critical metals represents a significant threat to the long-term competitiveness of American industry. TechMet, aligned with US interests, is committed to developing an independent supply of these critical metals.”

Brian Menell, Chairman and CEO of TechMet, said: “We are very pleased to have secured this funding and support from DFC, which enables Brazilian Nickel Plc to begin the commercial production of nickel and cobalt products used in the production of EV batteries. Having this level of US support is a great endorsement of TechMet’s team and strategy.”

Adam Boehler, CEO of the US International Development Finance Corp, a US Government agency, said: “This important financing will support economic growth in one of Brazil’s most underdeveloped areas. Investments in critical materials for advanced technology support development and advance US foreign policy.”

TechMet has been operational for three years and its core investments include:

  • Brazilian Nickel Plc;
  • Li-Cycle – lithium-ion battery recycling with a producing plant in Canada and a plant under construction in Rochester, New York;
  • US Vanadium – vanadium specialty chemicals production in Arkansas (USA); and
  • Tinco – one of the largest tin and tungsten mines in Rwanda.

TechMet also has an interest in a producing Rare Earths metals project and is developing TechMet Ventures to invest in new opportunities across the supply chain, it says.

Clean TeQ spells out battery raw materials potential of Sunrise project

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Clean TeQ Holdings and Fluor Australia have come up with a Project Execution Plan (PEP) for the Sunrise Battery Materials project in New South Wales, Australia, that, Clean TeQ says, confirms the asset’s status as one of the world’s lowest cost, development-ready sources of critical battery raw materials.

This builds on a 2018 definitive feasibility study on Sunrise that modelled the first 25 years of production at the project.

In production, it will be a major supplier of nickel and cobalt to the lithium-ion battery market, and scandium to the aerospace, consumer electronics and automotive sectors, according to Clean TeQ.

The PEP scope of works included a range of studies which have optimised metal production rates while holding autoclave ore feed constant at the approved maximum 2.5 Mt/y, it said. This saw average annual (metal equivalent) production rates of 21,293 t of nickel and 4,366 t of cobalt in years two to 11; and 18,439 t of nickel and 3,179 t of cobalt from year two to 25.

On top of this, the PEP considered a scandium oxide refining capacity of up to 20 t/y installed from year three, which can readily be expanded to 80 t/y with around A$25 million ($18 million) capital expenditure on additional refining capacity.

“As the scandium market grows, future investment in a dedicated resin-in-pulp scandium extraction circuit and further refining capacity offers the potential to increase by-product scandium production to up to approximately 150 tonnes per annum,” Clean TeQ said.

The pre-production capital cost estimate of $1.658 billion (excluding $168 million estimated contingency) reflects a significantly de-risked capital cost, with approximately 79% of total equipment and materials costs covered by vendor quotations, Clean TeQ said. Submissions were also obtained from contractors to validate the labour costs included in the total direct cost.

On the operating expenditure side, C1 costs came in at $4.31/Ib ($9,503/t) of nickel before by-product credits in years 2-11 and $4.58/Ib before by-product credits over years 2-25.

Using weighted average forecast (metal equivalent) sulphate prices over the life of mine of $24,200/t (including sulphate premium) for nickel and $59,200/t of cobalt, the project would generate a post-tax net present value of $1.21 billion, the company said.

Future value optimisation studies to assess opportunities to reduce capital expenditure in areas of off-site pre-assembly, modularisation and low-cost offshore procurement could further improve this return, it said.

The PEP assumed the project execution on an engineering, procurement and construction management (EPCM) basis. Prior to making a final investment decision, Clean TeQ will select an EPCM contractor for the engineering, procurement and construction phase of the project, it said.

Clean TeQ Co-Chairman, Robert Friedland, said: “Auto supply chains are coming to realise they are playing a game of nickel and cobalt musical chairs. We are half-way through the second verse and the music will eventually stop.

“We have a clear vision for how to create a sustainable auto supply chain of the future. Our team is proud to present that vision today. Sunrise is a long-life, low-cost, development-ready asset which is a template for consistent, sustainable and auditable nickel and cobalt supply. We cannot anticipate how long it will take to have the project funded and in development, but we can be patient with such a strategically important asset, and we are fully committed to ensuring it is developed with partners who understand the value that responsible supply chain integration brings.”

Although the level of activity associated with the PEP study and engineering works will now significantly reduce, Clean TeQ said a range of work-streams will continue in order to progress a number of value-adding deliverables aimed at minimising project restart time once funding is secured:

  • Work will be progressed on the long-lead electrical transmission line (ETL) work scope. The ETL application to connect to the NSW electrical grid is currently in progress and will continue through the 2021 financial year;
  • Progressing ongoing commercial discussions with landowners, local councils, the New South Wales state government and other impacted parties required for land access agreements for key infrastructure including the water pipeline and the ETL;
  • Surveying and planning for autoclave and oversize equipment transport routes to site;
  • Preliminary investigations to be undertaken on exploration licences for limestone resources, a key process reagent for which the company currently has a supply contract in place with a third party;
  • Test work and engineering assessing opportunities for potential further downstream processing of sulphates into battery precursor materials;
  • Ongoing environmental work including monitoring and compliance reporting;
  • The Sunrise Community Consultative Committee will be maintained along with several local community engagement/support programs; and
  • A range of scandium alloy development programs will continue to be progressed, consistent with Clean TeQ’s long term strategy to work with, and assist, industry players to investigate and develop new applications for scandium-aluminium alloys.

Appian, Atlantic Nickel reinvigorate Santa Rita as nickel sulphide fortunes rise

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At the height of the most recent nickel boom – when prices were over $20,000/t on the LME – the Santa Rita mine looked like a great option to gain exposure to the stainless steel raw material.

Mirabela Nickel, the mine owner, represented a pure-play nickel stock; Brazil, as a jurisdiction, was looked at favourably by investors; and the operation, itself, was one of the largest open-pit nickel sulphide mines in the world slated to produce 16,500 t/y of nickel sulphide in concentrate.

Gaining exposure to such a large, low grade asset is great when the underlying commodity price is tracking well, but, as has been shown time and again, it proves problematic when the price moves south.

Such a price deterioration came to pass in the years following the mine’s start up in 2009.

The asset, in north-eastern Brazil, was eventually placed on care and maintenance in the March quarter of 2016 as Mirabela Nickel declared bankruptcy. This was the same year the nickel price dipped below $10,000/t.

Fortunately for the local community and personnel that had invested much hope in the development of the $1 billion-plus mine, Appian Capital Advisory more recently took the view that there was a way forward for Santa Rita.

Picking up on an emerging trend for clean and green nickel sulphide concentrate from the electric vehicle and stationary storage market, plus the ability to re-engineer the operation and make it a much more robust asset, the company carried out a six-month due diligence process on Santa Rita.

This process led Appian to refine its understanding of the presence of nickel sulphides within the deposit, as opposed to the asset’s total contained nickel. With this understanding in hand, a more defensive and low-cost mine plan was developed to see the asset through nickel price peaks and troughs.

Appian ended up acquiring Santa Rita and setting up the Atlantic Nickel operating entity to enact these changes.

Having restarted open-pit mining just over a year ago, the asset is starting to pay back the faith Appian has placed in this plan.

“Our resource now focuses on the estimation of nickel sulphide within the deposit and benefits from additional drilling we’ve undertaken post-acquisition,” Adam Fisher, Principal, Appian Capital Advisory LLP, explained to IM. “The mine design we’ve developed extracts the deposit more selectively and also moves less waste, resulting in the low cost performance we’ve been able to achieve to date.”

In the first half of 2020, the company declared first quartile C1 cost performance of $3.17/lb ($6,989/t) nickel, net of by-products. This compares favourably with Mirabela Nickel’s $6.19/lb operating cost recorded in the September quarter of 2013.

“Among the operating changes we’ve implemented are the use of a smaller, locally procured, equipment fleet of 40 t trucks (Santa Rita previously used Caterpillar 777 90 t and 785 137 t payload trucks), the use of shorter benches – we’ve gone from 10 m down to, on average, 6 m – and tighter blasting patterns,” Fisher said.

All this work is being carried out by a Brazil-based consortium of contract miners.

“With smaller benches, tighter blasting patterns and smaller equipment fleets, we have more consistent control on the grade and fragmentation of the material that is fed to the crusher,” Fisher said.

The focus has gone beyond the near term, with more than 100,000 m of drilling executed in the underground resource area. The drilling was optimised for resource growth and classification confidence. The program was extremely successful and supported the declaration of the underground resource of 168 Mt at 0.59% NiS and 0.19% Cu. The 2020 drill programs continue to intersect similar widths and grades while stepping out from the declared resource, the company added.

The NI 43-101 technical report, released earlier this month, outlined a 34-year mine life for Santa Rita, with eight years of open-pit production, underpinned by proven and probable reserves of 50.6 Mt at 0.31% NiS, followed by 26 years of underground mining.

While still preliminary, this represented a very different approach to the previous Santa Rita owner.

“The last owners designed an open-pit mine with a 6:1 strip ratio and were planning to mine a lot deeper into the resource via open-pit methods,” Fisher said. “This was back in a very different nickel market when prices were greater than $10/Ib.

“All we did was find the optimal transition to bulk methods at depth to understand that it only makes sense to mine this as an open pit over eight years at a strip ratio that comes down to, on average, 2.7:1.”

Backing up this open-pit mine plan has been a 6.5 Mt/y plant, which, having started production in 2009, was completely refurbished and recommissioned in the second half of 2019 to align with the nickel sulphide recovery focus.

The plant consists of crushing, grinding, flotation, thickening and filtration unit operations to produce a saleable nickel sulphide concentrate. Flotation tailings are pumped to a tailings storage facility, while grinding is performed by a SAG mill, two ball mills and two pebble crushers. This is followed by a conditioning circuit and a flotation circuit, with the final concentrate thickened and pumped to storage tanks ready for filtration. Concentrate is filtered in a Larox (Metso Outotec) pressure filter. Following filtration, the final concentrate is trucked to the port of Ilhéus where it is loaded onto ships for transport to market.

Since the restart, more than five shipments have been made to the mine’s offtake partners.

“While the mine and plant are still ramping up, the open-pit operation is not far off from achieving the PEA estimates of being able to produce 20,000-25,000 t/y of contained nickel sulphide equivalent at a C1 cost of $2.97/Ib nickel,” Fisher said.

Beyond this, the company is looking to leverage innovation to create one of the largest and most efficient sub-level cave (SLC) operations in the world able to produce more of the highly sought after nickel sulphide product Santa Rita is becoming known for.

Caving in

“When carrying out the due diligence on Santa Rita, we knew all along that there was some good, thick intersections underground, with the orebody getting thicker at depth and the nickel sulphide grade improving,” Marcus Scholz, Head of Underground Mining at Appian Capital Advisory, told IM.

This was evident in the PEA, with underground mining inventory of 134.1 Mt grading 0.54% NiS and 0.17% Cu, comparing favourably – in terms of grade – with the proven and probable reserves of 50.6 Mt at 0.31% NiS and 0.11% Cu calculated for the eight-year open-pit operation.

“You’re looking at a massive orebody with moderate grades,” Scholz said. “Factoring that in, the lowest cost methods will generate the better margins in this case. With SLC having come a long way in the last 20 years in terms of practices, philosophies and the ability to control dilution through effective planning and modelling, plus the suitable geometry of the Santa Rita orebody, it was a good fit.”

This low-cost caving method allows the company to exploit more of the resource than other methods such as long-hole open stoping with backfill, plus fill the existing plant, Scholz explained.

Scholz was keen to point out that the company did not come to this conclusion on its own. It sought assistance from Power Geotechnical out of Australia, which has worked on other sub-level cave operations such as Carrapateena and Ernest Henry, when assessing its options.

Ernest Henry, operated by Glencore in Queensland, Australia, is a good analogue here. The Ernest Henry orebody is located at a similar depth below a pit and has a similar width and dip, but Santa Rita is about twice the size due to it being longer along strike, according to Scholz. It also comes with a similar 6 Mt/y profile.

Photography of Glencore’s Ernest Henry Mine near Cloncurry in Western Queensland

The SLC mining layout in the PEA comprises 37 mining levels spaced at vertical intervals of 25 m. Each level is made up of parallel and evenly spaced drill drives from which production drilling and blasting occur. Once blasted, the mineralisation is loaded from the drill drives using LHDs and loaded into trucks for haulage to the surface during the initial ramp-up phase, and later to ore passes feeding an underground crushing station and conveying to surface via an inclined tunnel.

The PEA plans will have the company mine directly beneath the open pit to start with, hence the reason it expects to start up production in 2028 after open-pit mining has concluded.

The underground operation will start with two years of waste development ahead of ore production, followed by ore truck haulage over a three-year period, Scholz outlined. After this, the operation will transition to underground conveyor haulage, ramping up to 6 Mt/y capacity over the next four years.

Asked why the company was starting with truck haulage before moving to conveyors, Scholz said it was an economic decision.

“If we truck first, we can delay some of the underground spend in terms of getting the underground crusher in,” he said.

Over the life of the underground mine, the company plans to install two underground crushers, being fed with roughly equal amounts of ore. The first will serve the upper half of the deposit and the second crusher the lower half (circa-6 Mt/y each, staged as mining progresses deeper in the deposit).

The first crusher will be positioned about 650 m below surface, or 450 m below the ultimate depth of the open pit.

“This will take a bit of time to get down there and access it (in terms of mine development), so it makes sense to start haulage with trucks,” Scholz said.

Appian is looking to lease the 60 t trucks required for this stage of the operation, explaining that Atlantic Nickel will operate the 12 machines needed at the height of truck haulage, which is when mining rates hit the annualised 2.5 Mt/y mark.

The truck haulage route will be a short one, travelling some 200-300 m below surface to access material before going back above ground.

After the conveyor transition, the trucks are expected to be used in later years for waste haulage, which could amount to some 500,000 t/y of material, according to Scholz.

Automation and electrification transition

It is when the conveyor starts up that the automation element of Santa Rita Underground really kicks into gear.

The company assumed the use of automated LHDs, longhole drilling and jumbo development drilling in the PEA. This saw Epiroc, Caterpillar and Sandvik provide price inputs, with design layouts anticipating such equipment.

Scholz expanded on this for IM: “We foresee that loaders going from the SLC drawpoints to the ore passes would be automated, meanwhile, at the collection level at the bottom of ore passes, we would probably have up to three large automated loaders that transfer material to the crusher.”

Longhole drills would also be automated for the SLC, while the company plans to automate face drilling activities on the development jumbos it will use.

“I think in another eight years’ time when we start up production, a lot of this technology is going to be the norm in the industry,” Scholz said.

The current study assumes the use of a diesel-powered load and haul (initially) fleet, though electric vehicles could provide upside in future studies and further reduce energy costs, equipment maintenance costs and ventilation power costs, an Appian spokesperson recently told IM.

“Both tethered- and battery-powered machines will be looked at for specific applications within the mine, such as loading from drawpoints and feeding the underground crusher from the bottom of ore passes,” the spokesperson explained.

While much of the industry’s larger load and haul equipment has not yet made the commercial leap to battery power, the company is keen to pursue developments in the future as the technology became available, Scholz said.

The circularity of such a move will not be lost on Appian or Atlantic Nickel, knowing the nickel sulphide concentrate it will be offloading could end up in these battery-powered machines. In eight years, these end users will most likely be factoring such emissions-reducing technology into their raw material procurement choices.

For the time being, the company is focused on completing the underground drilling program at Santa Rita, which has, to date, shown much promise.

Fisher said every hole has intersected nickel sulphides to this point meaning the chances of a further underground resource upgrade in the early part of next year were high.

These figures will be factored into a prefeasibility study later in 2021, which will include more detailed geotechnical information on the SLC, as well as subsidence modelling, Scholz said.