Tag Archives: nickel

Hamptons moves from gold to nickel for Mincor Resources

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Mincor Resources has awarded Hampton Mining and Civil Services with an early works contract to kick off the pre-development stage of a new nickel sulphide mine at its Cassini project in Kambalda, Western Australia.

The award of the contract follows board approval for the early works program and is consistent with one of the key uses of funds outlined in the company’s recent A$35.6 million ($23.8 million) capital raising.

The scope of works involves a “discrete two-month program” focused on site clearance activities for infrastructure and services, plus the excavation of the box-cut at Cassini, Mincor said.

Hamptons had a previous successful association with Mincor undertaking open-pit mining at its Widgiemooltha gold operations, and has therefore been able to mobilise promptly to complete work on this contract, according to the ASX-listed miner.

Following the completion of the updated Cassini mineral resource in November, the total nickel resources across Mincor’s Kambalda tenements now stands at 4.9 Mt at 3.8% Ni for 187,900 t of nickel.

Mincor’s Managing Director, David Southam, said the award of this early works contract, prior to completion of the definitive feasibility study scheduled for later this quarter, represents a strong vote of confidence by the board in the long-term future of Cassini – a key pillar in the company’s integrated nickel restart strategy.

“Given that Cassini is our flagship deposit, and with the project recently receiving all necessary key State Government approvals, it was a logical decision to commence pre-mining works as soon as possible,” he said. “We are currently assessing the mining contract tenders for both the Northern and Southern Operations, and these contractors are, importantly, separate from Hamptons for this discrete program.”

He added: “With Hamptons commencing work immediately, we expect this initial program of site works to be largely completed by the end of the current quarter. This will ultimately save the company time by having this preparatory work finished early, particularly as decline development to access the new underground mine at Cassini is one of the longer lead items in our overall development timeline.”

Panoramic looks to Barminco for Savannah nickel-copper-cobalt ramp up

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Perenti’s hard-rock underground mining subsidiary, Barminco, has been selected as the preferred contractor by Panoramic Resources at its Savannah nickel-copper-cobalt project in the Kimberley region of Western Australia.

The contract, worth around A$200 million ($135 million), will see Barminco carry out mine development, production, and haulage over a three-year term. Work is expected to commence in March 2020.

Barminco anticipates it will employ around 170 people for the project and use predominately new equipment, which has been included in the capital guidance previously provided, to deliver the project.

Savannah, 110 km north of Halls Creek in Western Australia, saw mining operations recommence in December 2018, with the first shipment of concentrate departing Wyndham in February 2019. The miner is currently developing the higher-grade Savannah North orebody focusing on high speed development and a ramp up to full production in 2020, Perenti said.

Perenti Managing Director, Mark Norwell, said: “This project demonstrates our ability to capture organic growth opportunities, with the Barminco business now well integrated into the Perenti group whilst further embedding itself as a leader in underground mining.”

Underground Chief Executive Officer, Paul Muller, added: “We look forward to working closely with Panoramic Resources in driving the development of the Savannah North orebody safely and efficiently as it ramps up to full production.”

Miners need to do more in climate change, decarbonisation battle, McKinsey says

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A report from consultancy McKinsey has raised concerns about the mining industry’s climate change and decarbonisation strategy, arguing it may not go far enough in reducing emissions in the face of pressure from governments, investors, and activists.

The report, Climate risk and decarbonization: What every mining CEO needs to know, from Lindsay Delevingne, Will Glazener, Liesbet Grégoir, and Kimberly Henderson, explains that extreme weather – tied to the potential effects of climate change – is already disrupting mining operations globally.

“Under the 2015 Paris Agreement, 195 countries pledged to limit global warming to well below 2.0°C, and ideally not more than 1.5°C above preindustrial levels,” the authors said. “That target, if pursued, would manifest in decarbonisation across industries, creating major shifts in commodity demand for the mining industry and likely resulting in declining global mining revenue pools.”

They added: “Mining-portfolio evaluation must now account for potential decarbonisation of other sectors.”

The sector will also face pressure from governments, investors, and society to reduce emissions, according to the authors.

“Mining is currently responsible for 4-7% of greenhouse gas (GHG) emissions globally. Scope 1 and Scope 2 CO2 emissions from the sector (those incurred through mining operations and power consumption, respectively) amount to 1%, and fugitive methane emissions from coal mining are estimated at 3-6%.

“A significant share of global emissions – 28% – would be considered Scope 3 (indirect) emissions, including the combustion of coal.”

While there have been a number of high-profile mining companies making carbon emission pledges in the past 18 months – BHP pledging $400 million of investment in a low carbon plan being one notable example – the authors say the industry has only just begun to set emissions-reduction goals.

“Current targets published by mining companies range from 0-30% by 2030, far below the Paris Agreement goals, which may not be ambitious enough in many cases,” they said.

Through operational efficiency, and electrification and renewable-energy use, mines can theoretically fully decarbonise (excluding fugitive methane), according to the authors, with the disclaimer that building a climate strategy, “won’t be quick or easy”.

Water/heat

Water stress was one area the authors homed in on, saying that climate change is expected to cause more frequent droughts and floods, altering the supply of water to mining sites and disrupting operations.

The authors, using McKinsey’s MineSpans database on copper, gold, iron ore, and zinc, recently ran and analysed a water-stress and flooding scenario to emphasise the incoming problems.

The authors found that 30-50% of the production of these four commodities is concentrated in areas where water stress is already “high”.

“In 2017, these sites accounted for roughly $150 billion in total annual revenues and were clustered into seven water-stress ‘hot spots’ for mining: Central Asia, the Chilean coast, eastern Australia, the Middle East, southern Africa, western Australia, and a large zone in western North America,” the authors said.

The authors continued: “Climate science indicates that these hot spots will worsen in the coming decades. In Chile, 80% of copper production is already located in ‘extremely high’ water-stressed and ‘arid’ areas; by 2040, it will be 100%. In Russia, 40% of the nation’s iron ore production, currently located in ‘high’ water-stressed areas, is likely to move to ‘extreme’ water stress by 2040.”

And, mining regions not accustomed to water stress are projected to become increasingly vulnerable, according to the report.

By 2040, 5% of current gold production likely will shift from ‘low–medium’ water stress to ‘medium–high’; 7% of zinc output could move from ‘medium–high’ to ‘high’ water stress, and 6% of copper production could shift from ‘high’ to ‘extremely high’ water stress.

The authors said: “Depending on the water-intensiveness of the processing approach, such changes, while seemingly minor in percentage terms, could be critical to a mine’s operations or licence to operate.”

Mining executives in these regions are acutely aware of the water issue, according to the authors.

“For instance, Leagold Mining recently shut down its RDM gold mine in Brazil for two months because of drought conditions, even though it had built a dam and a water pipeline,” they said.

Even in areas with low water stress, certain water-intensive mining processes are jeopardised.

“In Germany – not a country known for being vulnerable to drought – a potash miner was forced to close two locations because of severe water shortages in the summer of 2018, losing nearly $2 million a day per site,” they said.

“The frequency and severity of these conditions are expected to increase along with the current climate trajectory.”

To improve resiliency, companies can reduce the water intensity of their mining processes, the authors said. They can also recycle used water and reduce water loss from evaporation, leaks, and waste. Mining companies can, for example, prevent evaporation by putting covers on small and medium dams.

In the long term, more capital-intensive approaches are possible, according to the authors. This could involve new water infrastructure, such as dams and desalination plants. Companies can also rely on so-called “natural capital”, like wetland areas, to improve groundwater drainage.

The authors said: “The option of securing water rights is becoming harder and can take years of engagement because of increased competition for natural resources and tensions between operators and local communities. Basin and regional planning with regulatory and civic groups is an important strategy but cannot alone solve the underlying problem of water stress.”

On the reverse, flooding from extreme rains can also cause operational disruptions, including mine closure, washed-out roads, or unsafe water levels in tailing dams, with flooding affecting some commodities more than others based on their locations.

The authors’ analysis showed iron ore and zinc are the most exposed to ‘extremely high’ flood occurrence, at 50% and 40% of global volume, respectively.

“The problem is expected to get worse, particularly in six ‘wet spots’ likely to experience a 50-60% increase in extreme precipitation this century: northern Australia, South America, and southern Africa during Southern Hemisphere summer, and central and western Africa, India and Southeast Asia, and Indonesia during Southern Hemisphere winter,” the authors said.

Companies can adopt flood-proof mine designs that improve drainage and pumping techniques, the authors said, mentioning the adaptation of roads, or the building of sheeted haul roads, as examples.

Moving to an in-pit crushing and conveying method would also help alleviate potential floods, replacing mine site haulage and haul roads with conveyors.

When it comes to incoming extreme heat in already-hot places – like China, parts of North and West Africa and Australia – the authors noted that worker productivity could fall and cooling costs may rise, in additon to putting workers’ health (and sometimes their lives) at risk.

“Indirect socioeconomic consequences from climate change can also affect the political environment surrounding a mine,” they said.

Shifting commodity demand

Ongoing decarbonisation is likely to have a major impact on coal – “currently about 50% of the global mining market, would be the most obvious victim of such shifts”, the authors said – but it would also affect virgin-ore markets.

“In a 2°C scenario, bauxite, copper, and iron ore will see growth from new decarbonisation technologies offset by increased recycling rates, as a result of the growing circular economy and focus on metal production from recycling versus virgin ore,” they said.

At the other end of the spectrum, niche minerals could experience dramatic growth. As the global electrification of industries continues, electric vehicles and batteries will create growth markets for cobalt, lithium, and nickel.

Emerging technologies such as hydrogen fuel cells and carbon capture would also boost demand for platinum, palladium, and other catalyst materials, while rare earths would be needed for wind-turbine magnets.

The authors said: “Fully replacing revenues from coal will be difficult. Yet many of the world’s biggest mining companies will need to rebalance non-diverse mineral portfolios.

“Many of the largest mining companies derive the bulk of their earnings from one or two commodities. Copper-heavy portfolios may benefit from demand growth due to widespread electrification, for example. And iron ore- and aluminium-heavy portfolios may see an upside from decarbonisation technologies, but they are also more likely to be hit by rising recycling rates.”

According to the authors, the mining industry generates between 1.9 and 5.1 gigatons of CO2-equivalent of annual greenhouse gas (GHG) emissions. Further down the value chain (Scope 3 emissions), the metals industry contributes roughly 4.2 gigatons, mainly through steel and aluminium production.

To stay on track for a global 2°C scenario, all sectors would need to reduce CO2 emissions from 2010 levels by at least 50% by 2050, they said.

To limit warming to 1.5°C, a reduction of at least 85% would likely be needed.

“Mining companies’ published emissions targets tend to be more modest than that, setting low targets, not setting targets beyond the early 2020s, or focusing on emissions intensity rather than absolute numbers,” the authors said.

To estimate decarbonisation potential in mining, the authors started with a baseline of current emissions by fuel source, based on the MineSpans database of mines’ operational characteristics, overlaid with the possible impact of, and constraints on, several mining decarbonisation levers.

The potential for mines varied by commodity, mine type, power source, and grid emissions, among other factors.

“Across the industry, non-coal mines could fully decarbonise by using multiple levers. Some are more economical than others – operational efficiency, for example, can make incremental improvements to the energy intensity of mining production while requiring little capital expenditure,” they said. Moving to renewable sources of electricity is becoming increasingly feasible too, even in off-grid environments, as the cost of battery packs is projected to decline 50% from 2017 to 2030, according to the authors.

“Electrification of mining equipment, such as diesel trucks and gas-consuming appliances, is only starting to become economical. Right now, only 0.5% of mining equipment is fully electric.

“However, in some cases, battery-electric vehicles have a 20% lower total cost of ownership versus traditional internal-combustion-engine vehicles. Newmont, for example, recently started production at its all-electric Borden mine in Ontario, Canada.”

The authors said: “Several big mining companies have installed their own sustainability committees, signalling that mining is joining the wave of corporate sustainability reporting and activity. Reporting emissions and understanding decarbonisation pathways are the first steps toward setting targets and taking action.”

Yet, these actions are currently too modest to reach the 1.5-2°C scenario and may not be keeping up with society’s expectations – “as increasingly voiced by investors seeking disclosures, companies asking their suppliers to decarbonise, and communities advocating for action on environmental issues”.

They concluded: “Mining companies concerned about their long-term reputation, licence to operate, or contribution to decarbonisation efforts may start to consider more aggressive decarbonisation and resilience plans.”

MACA exits Brazil, prepares for more FQM Ravensthorpe work

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Contract miner, MACA Ltd, says it will cease operations in Brazil, effective January 2020, following the early termination of a contract at the Antas copper mine.

The contract, due to conclude in 2020, was with AVB Mineracao Ltda, a subsidiary of OZ Minerals, which announced back in mid-2019 that it planned to close the Antas open pit (pictured) in 2021. The reduction in the work in hand (WIH) position as a result of the early termination will be around A$8 million ($5.5 million), the company said.

At the same time as announcing this news, MACA said its mining division had received a letter of intent (LOI) from First Quantum Minerals to carry out works at the Tamarine limestone quarry, in Western Australia, including mining, crushing and screening of limestone over a three-year period. This contract was worth around A$20 million over that timeframe, MACA said.

The LOI follows the Ravensthorpe contract award with First Quantum that was announced November 20, 2019. MACA said works were expected to start in February utilising existing crushing equipment.

In Brazil, MACA said it would retain ownership of the majority of the plant and equipment currently utilised at the Antas copper mine, in Para state, northern Brazil, and would dispose of assets that are not redeployed to other operations.

“It is expected there will be a non-cash impairment related to the cessation of operations in Brazil of approximately A$2 million,” MACA said. “In addition, there are unrealised forex losses that will be triggered upon closure of the subsidiary, of approximately A$5 million based on current exchange rates.”

Profit from ordinary operations was not expected to be impacted as a result of the closure given the recent financial performance of the contract, MACA added.

WIH attributable to MACA as at January 31, 2020 is expected to be A$2.3 billion across all business units, MACA said, with current guidance for financial year 2020 (to end-June) remaining at A$770 million revenue and EBITDA from operations (excluding the impact of the Antas impairment and forex losses) to be in a range of A$104-$110 million.

Mincor’s Kambalda nickel restart plans ramp up

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Mincor Resources says the definitive feasibility study (DFS) for the integrated nickel restart plan at its Kambalda assets in Western Australia progressed well during the December quarter, with mining contractor awards expected to occur soon.

The restart will operate in two distinct areas: the Northern Operations (Long and Durkin mines) and the Southern Operations (Cassini and Miitel mines).

Mining contract tender pricing updates for the Southern Operations were received in late December and are currently under review, while, for the Northern Operations, updated mining inventory, mine design, mine schedules and contractor pricing are expected this month for assessment, Mincor said. A tender for surface haulage was sent to contractors for pricing, with submissions also expected this month.

During the quarter, Mincor progressed the pricing for an early capital works program at Cassini, which includes minimal site clearance and a box-cut. A decision on the award of this contract is expected shortly, it said.

The DFS, meanwhile, is still expected to be delivered this quarter.

Following the completion of the updated Cassini mineral resource in November, the total nickel resources across Mincor’s Kambalda tenements now stands at 4.9 Mt at 3.8% Ni for 187,900 t of nickel.

In October at the Paydirt 2019 Australian Nickel Conference in Perth, Western Australia, Mincor Resources’ David Southam said the restart of the Kambalda nickel mine would act as a “global showcase” for all-electric underground light vehicles.

Zenith Energy and Independence celebrate solar start up at Nova

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Operations at Independence Group’s Nova nickel-copper-cobalt operation in the Fraser Range of Australia are now being powered by a mix of diesel and solar energy after the on-site hybrid solar PV-diesel facility started up.

Zenith Energy’s wholly owned subsidiary, Zenith Pacific, built the plant. The ASX-listed power company also owns and operates the facility, which, it said, is already exceeding performance targets for power output and energy efficiency.

The two signed a contract back in 2018, amending an existing power purchase agreement.

Within the 26.6 MW facility is 5.5 MW of state-of-the-art photovoltaic (PV) modules, single axis tracking, inverters and communications and control system technology, according to Zenith Energy’s Managing Director, Hamish Moffat. The system also features high-efficiency diesel-fuelled generators that combine with this control system to optimise solar and diesel power delivery.

Moffat said: “The proprietary hybrid system developed by the company is able to seamlessly manage the fluctuations in solar PV energy production to provide smooth, reliable power, without the need for batteries to stabilise energy delivery to Nova.”

He explained that batteries have their place in energy systems but are still expensive to deploy for these applications.

“Our unique, locally developed hybrid system eliminates the need for batteries and represents a major step forward in the capital cost optimisation, operating efficiency and environmental performance of solar PV hybrid energy systems in remote locations,” he added.

According to Moffat, the system is saving Nova in the order of 6,500 litres of diesel a day, and it is the first hybrid solar PV-diesel installation to have been funded on a commercial, standalone basis – without any government subsidies.

IGO’s Chief Operating Officer, Matt Dusci, said: “At IGO we are striving to reduce our carbon footprint. The implementation of new technologies with the construction of a hybrid‐solar system at Nova will enable IGO to reduce our CO2-equivalent emissions by approximately 6,500 t per annum. The solar facility will also decrease our cost structure through reductions in our diesel fuel usage.”

As part of an agreement between the two companies, Zenith will supply power from the solar PV‐diesel hybrid system for an initial six‐year period, with an option for Independence to extend for a further two years.

Nova is expected to produce 6,750-7,500 t of nickel concentrate in the year ending June 30, 2020, alongside 2,750-3,125 t of copper concentrate and 213-238 t of cobalt concentrate, according to the miner’s September quarter results.

Boliden Kevitsa collaborating on process plant maintenance

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Boliden is a front-runner when it comes to applying technology and innovation to its Europe-based mines, and the company is now leading an industry move in condition monitoring and predictive maintenance in its process plants.

At its Kevitsa copper-nickel mine, 130 km north of the Arctic Circle in Finland, Boliden has been collaborating with the likes of IBM Maximo, OSISoft, SKF and Metso on condition monitoring and predictive maintenance solutions, according to Sami Pelkonen, Maintenance and Engineering Manager at Boliden Kevitsa.

Expansion in the plans

The mine is in the throes of an SEK800 million ($82 million) expansion that will see plant throughput go from 7.8 Mt/y to 9.5 Mt/y. This involves the addition of a new autogenous mill and peripheral equipment (including a new Metso MF series screen), and a new mill building. Commissioning of the new equipment is expected in 2020, with the mine reaching full 9.5 Mt/y capacity in 2021.

With this expansion going on, plant maintenance has moved up the agenda.

Some 80% of process plant maintenance is currently pre-scheduled, with the Kevitsa mine achieving, on average, 93% availability from its equipment, according to Pelkonen, but Boliden Kevitsa is looking to increase these numbers.

Pelkonen told IM late in October that the Kevitsa mine has been looking to acquire “good quality…and useful data to support our daily maintenance operations and procedures” at its plant. This is all part of the company’s plan to increase uptime and cut costs at the operation.

As part of this initiative, it installed the IBM Maximo asset management system in May of this year. At the same time, the operation has been working with the Boliden Mines Technology Department on a wider asset management program.

When it comes to plant reliability, Boliden Kevitsa has enlisted the help of SKF (for condition monitoring of bearings throughout the plant), OSISoft for process data acquisition, and Metso to ensure uptime of mineral processing equipment is maximised and unplanned downtime is reduced.

Partnering for performance

The partnership with Metso dates back to before the mine was acquired by Boliden in 2016, but in recent years the two have collaborated on crusher and mill uptime projects, with the OEM supplying mill liners and wear parts that can be switched out quickly and cost effectively. The two firms have also been in constant communication about accessing and analysing valuable process plant data during the last three years.

When the mine acquired a new MF screen from Metso in May (pictured), it decided now was the time to trial the new Metso Metrics predictive maintenance platform in this part of the flowsheet.

Pelkonen explained: “After the increase in production (to 9.5 Mt/y), the front end will be even more critical for us, so we have to be aware if any failures are developing in our front end; especially in our screen.”

The remote location of Kevitsa, situated some 40 km by road from Sodankylä, is also behind the need for this type of condition monitoring and predictive maintenance.

“If something happens like we have an equipment failure, it takes around one hour for our employees to get to the mine,” he said. “Condition monitoring helps us address the need to get resources to site in the correct time.”

The Metso Metrics test paid off almost instantly, when, soon after installation, the company noticed there was something wrong with the running speed of the screen.

“The indication we received from Metso Metrics helped us map out that there were two broken V belts. We were able to cut the downtime to a minimum thanks to the information coming from Metrics,” Pelkonen explained.

Sami Pelkonen was speaking to IM as part of an upcoming Insight Interview with experts from Boliden Kevitsa and Metso that will be published in early-2020

MACA to help FQM with Ravensthorpe nickel mine restart

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MACA says it has received a letter of award from First Quantum Minerals related to carrying out open-pit mining services at the Ravensthorpe nickel project in Western Australia.

On care and maintenance since October 1, 2017, due to the persistently low nickel price, Ravensthorpe involves open-pit mining and beneficiation of nickel laterite ore, pressure acid leaching, atmospheric leaching, counter current decantation, precipitation and filtration to produce a mixed hydroxide precipitate product, containing approximately 40% nickel and 1.4% cobalt on a dry basis.

First Quantum hinted earlier this year that a restart could be on the cards following a sustained nickel price run. Restart costs, should favourable conditions prevail, are estimated at $10 million, the company has previously said.

The final contract award with MACA is subject to finalisation of documentation with all major terms having been agreed, the ASX-listed contractor said.

Mobilisation to site is expected to commence in December with operations commencing from January.

The project will consist of open-pit mining services including drilling and blasting, and loading and hauling, and is expected to generate around A$480 million ($327 million) in revenue for MACA over the initial five-year term.

MACA said its total work in hand position now stands at A$2.5 billion and its financial year 2020 revenue is expected to be around A$770 million.

MACA Operations Director, Geoff Baker, said: “We are very pleased to have been selected preferred contractor and look forward to developing a long-term working relationship with the First Quantum team at the Ravensthorpe nickel project.”

Norilsk Nickel and UNIDO on the search for environmentally-sound technologies

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Norilsk Nickel and the United Nations Industrial Development Organization (UNIDO) have signed a joint declaration to support environmentally-sound technologies in the metals industry, the Russia-based miner said.

Li Yong (left), the Director General of UNIDO, and Dmitry Pristanskov (right), State Secretary — Vice President of Norilsk, were present at the signing.

UNIDO is a specialised agency of the UN system with the mission to promote and accelerate inclusive and sustainable industrial development in developing and transition countries as well as to advance international industrial cooperation. The organisation’s activities are structured based on the following priorities: creating shared prosperity, advancing economic competitiveness and safeguarding the environment.

Norilsk, meanwhile, is the world’s largest producer of palladium (by production) and one of the largest producers of nickel, platinum and copper.

“It is a significant step forward in our partnership with UNIDO,” Pristanskov said of the joint declaration. “We are looking into opportunities to work together on a broad range of projects aimed at the reduction of environmental impact of the metals and mining industry and ensuring sustainable development in the regions of our operations and beyond.”

Li Yong said UNIDO sees “great potential” in engaging with the private sector to maximise the capacities of partners to “foster technology transfer and ensure an environmentally-friendly industrial development”.

He added: “We are confident that the joint declaration will bring positive outcomes in promoting best available techniques and best environmental practices to tackle important industrial development issues.”

Electric underground light vehicles coming to Kambalda, Mincor’s Southam says

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Mincor Resources’ David Southam said the restart of the company’s Kambalda nickel mine in Western Australia will act as a “global showcase” for all-electric underground light vehicles when it opens in the next few years.

Southam, the company’s Managing Director, made such a statement at the Paydirt 2019 Australian Nickel Conference in Perth, Western Australia, this week.

The company is currently running a definitive feasibility study (DFS) at the project, at the same time as completing drilling to add resources to the property. First site works could occur in the March quarter, according to Southam.

So far, Mincor has built up a 4.7 Mt resource base grading 3.7% Ni for 175,300 t of contained nickel. The company hopes to deliver initial throughput of between 400,000-600,000 t/y of ore over an initial four-to-five-year period, which it will sell to BHP’s nearby Kambalda operations as part of an offtake agreement with the major miner.

Southam said the company’s decision to restart underground nickel mining operations using new light electric vehicles such as Safescape’s Bortana EV (with system integration from 3ME Technology and Agrale) would reduce ventilation costs and diesel particulate counts.

The Bortana EV, specifically, has had a prototype undergo local mine site testing in Newcastle, New South Wales, before an extended trial with Kirkland Lake Gold’s Fosterville mine in Victoria.

Southam also said the company had a longer-term aim to transition larger mining vehicles to electric once infrastructure was established.

“This mine restart will be a global showcase for this new and more environmentally-friendly mining technology,” he said.