Tag Archives: ore sorting

TOMRA delivers the goods at Stornoway Diamonds’ Renard mine

Diamond mining, Equipment maintenance, Metallurgy, Mine operation news, Mineral processing, Mining equipment, Mining services, Sustainable mining, , , , ,

TOMRA’s ore sorting technology has delivered impressive results in its first diamond processing plant application. 

The company worked with Stornoway Diamonds and its Renard diamond mine, in Quebec, Canada.

The Renard mine, in commercial production since 2017, is the first diamond mine in the province and one of six in Canada. It started with an open-pit mine and subsequently opened an underground mine.

The conditions of the mine presented Stornoway Diamonds with particular challenges that required an innovative approach, according to TOMRA.

“Due to the geology of our ore, meaning we produce very high yield, we have lots of material that we need to sort through. At times, we have the possibility of losing some of those very expensive diamonds due to inefficiencies,” explains Marie-Claude Hallé, Marketing Operations Manager for Stornoway Diamonds.

In addition, “our orebody at the Renard mine contains a high level of internal and external dilution called country rock, a significant issue for us, as it can make up to 30 to 40% of the feed to the plant.

“With that comes very, very high energy cost from crushing all this waste material that is not diamond bearing. It causes a tremendous amount of wear and tear on our equipment from screening conveyors, diamond recovery equipment, and on a dollar-per-tonne basis we spend a lot of money processing non-diamond bearing material.”

Stornoway needed to find a way to reduce its costs and optimise its operation, which is where TOMRA came in.

“You have to really envision that TOMRA has actually changed the game in terms rough diamond recovered around the world, and allowed producers to access large exceptional quality goods that perhaps in the past would be crushed to pieces,” Marie-Claude Hallé said.

TOMRA’s solution incorporates ore sorting technology into the mine’s processing plant.

TOMRA analysed the situation and worked closely with Stornoway Diamond’s team to design and install a kimberlite pre-concentration plant.

The specific conditions at the Renard mine meant the traditional Dense Media Separation method could not provide an efficient and cost-effective solution. It led to TOMRA making Renard the first diamond mine to incorporate ore sorting into its processing plant.

TOMRA addressed the mine’s recovery issue with its leading sorting technologies, developing a solution with four key objectives for the ore sorting plant: minimise diamond breakage by removing hard rocks from the crushing plant feed; upgrade the quality of the material to the process plant by increasing the proportion of Kimberlite to waste rock; reduce the energy required for crushing by removing the harder rocks; and improve circuit efficiencies throughout the plant.

TOMRA’s solution features five PRO Near Infrared (NIR) sorters in its ore sorting circuit. This technology is particularly well suited to enable discrimination between the various ore and waste materials that need separation at the Renard mine, based on their different chemical composition, TOMRA said.

TOMRA also included a COM XRT 2400 sorter, which uses X-Ray Transmission technology to separate material according to its specific atomic density, in the plant’s large diamond recovery circuit.

Hallé continued: “The TOMRA solution we have in operation has offered us a very low-cost, efficient reliable means of recovering our coarse diamonds without inefficiency, without causing diamond breakage.

“It’s a very neat way to get those diamonds out of the kimberlite at the very early stage of the process. We reduce our power consumption cost, we reduce our wear and tear on material.

“We are still optimising this unit, and we feel there are even more benefits to come in terms of how it helps enhancing the overall recovery of our diamonds.”

Geoffrey Madderson, Diamond Segment Manager at TOMRA, concludes: “The implementation of this plant proves that TOMRA waste sorting technology can successfully be used to upgrade lower grade run of mine and that sensor-based sorting can be used to further improve value recovery for our clients on lower-grade resources.”

TOMRA said the integration of the ore sorting plant into the main processing plant was completed smoothly, with its full involvement in the ore sorting plant design. TOMRA also had a team onsite for the first three months of operation to ensure a seamless transition, and will continue to provide ongoing support for the entire life of the equipment.

“We chose TOMRA because we find TOMRA’s approach to problem solving to be very innovative,” adds Hallé. “We see them as a solution provider that thinks outside the box, that doesn’t always come with ‘here’s the off-the-shelf solution to your problem’, but in fact engages with us and looks at what are the best possible options.

”In fact, it will develop technology if needed to address those specific problems. We always have outstanding service as well, from TOMRA technicians, from engineers, from every aspect of TOMRA Sorting.”

Northern Minerals backs XRT ore sorting pilot plant plan with Steinert order

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Northern Minerals has capped off its ore sorting project enhancement initiatives at the Browns Range rare earths project, in northern Western Australia, with the selection of a Steinert ore sorter for use at its pilot plant.

The selected machine is in stock in Perth and a deposit has been paid in order to secure it and avoid any lead time lags or delays, the company said.

Nexus Bonum, which previously completed the feasibility study for the x-ray transmission ore sorter system at the pilot plant, has been engaged to undertake the front-end engineering and design work required for the inclusion of the sorter into the pilot plant beneficiation circuit.

The company said: “As previously announced, the findings from initial test work and studies indicate that the inclusion of ore sorting at Browns Range has the potential to double the mill feed grade potentially leading to an increased production rate of heavy rare earth carbonate and a potential lowering of operating costs.”

The company is currently working with stakeholders and regulators on obtaining the approvals required for the installation of the ore sorter at Browns Range and is aiming to have the system installed and commissioned by mid-2020, subject to receiving these approvals in a timely manner.

Northern Minerals’ Managing Director and CEO, George Bauk, said: “Following the recent capital raising, we have moved quickly to progress this critical piece of equipment that has the potential to be a game changer for the project.

“Higher grades going into the plant would result in higher production rates and lower operating costs, a double win in terms of proving the economics of the Browns Range project.”

Northern Minerals commenced production of heavy rare earth carbonate at the Browns Range pilot plant back in October. This followed plant commissioning in June.

The project is designed to assist the company in evaluating the economic and technical feasibility of mining at Browns Range and will provide the opportunity to gain production experience and surety of supply for its offtake partner. This could see the company become the first significant producer of dysprosium outside of China.

XRF ore sorting shows potential at Yukon zinc project

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X-ray fluorescence (XRF) ore sorting technology has found another fan after Fireweed Zinc reported positive results from preconcentration test work at its Macmillan Pass zinc project in the Yukon of Canada.

Samples from Macmillan Pass’ Boundary Zone, a discrete bulk-tonnage, exploration target 15 km northwest of the Jason zinc-lead-silver deposit, were put through XRF, X-ray transmission, electromagnetic and dense media separation sorting tests by Canada’s Sacré-Davey Engineering at the University of British Columbia, with XRF showing the most promising results, Fireweed said.

The principal results of the 436 rock samples tested in the XRF trials included the potential to upgrade the feed grade from 2.5% Zn to 5% Zn and a rejection rate of 70-50%, with zinc recoveries ranging from 80-85%.

Fireweed pointed out that the analysis in the study assumed that 25% of the feed had fines (-12 mm) which cannot be processed in the ore sorter. As a result of this, the fines would bypass the sorter and combine with the ore sorter product, with the final grade of 5% Zn achieved after combining the ore sorter product with the fines assumed to have a grade of 2.5% Zn.

XRF sorting is currently used at over 50 operations across the world, including Hecla Mining’s San Sebastian mine, in Mexico, and Anglo American’s Mogalakwena mine, in South Africa, according to Fireweed.

Typically, it uses an XRF sensor to distinguish and measure surface metal abundances on rock pieces moving on an enclosed conveyor belt unit. The XRF readings for each individual rock are then analysed by high speed software to distinguish and flag rocks with metal values above and below a set threshold.

At the end of the conveyor belt, focused high pressure air jets or mechanical levers then separate the designated higher-grade rock pieces for processing and reject low grade and waste pieces. The amenability to ore sorting depends on the material characteristics of a deposit.

Fireweed said: “The Boundary Zone samples responded positively to XRF testing because zinc values on the surfaces of individual rock pieces correlate closely with the overall zinc assays of those rocks.”

Fireweed Zinc CEO, Brandon Macdonald, said the ore sorting results imply there is potential to improve the economics of the Macmillan Pass project.

He continued: “These results suggest that we may be able to reject 50% to 70% of low-grade and waste rock at low cost near a potential open-pit operation at Boundary with less than 15% loss of zinc mineralisation before material is transported to a central processing plant at Tom.”

Macdonald said the company has now moved the drill to Boundary to both confirm and step out from historic holes, as well as obtain a 2 t sample to confirm these ore sorting results may be obtained on a larger scale.

“If the larger test is successful, we can then incorporate the benefits of an XRF ore sorting system at Boundary into a revised preliminary economic assessment economic study along with upgraded information from recent drilling at Tom, Jason and End Zones.”

A 2018 preliminary economic assessment at Macmillan Pass showed that a 4,900 t/d operation could be constructed for an initial capital C$404 million ($305.9 million) using starter-pits on the Tom West and Jason Main zones.

This plan would result in average yearly contained-metal production of 85,000 t of zinc, 48,000 t of lead and 2 Moz of silver over an 18-year life, with an after-tax net present value (8% discount) of C$448 million generated.

Ore sorting has role to play in ‘Green Mining’ developments, TOMRA says

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TOMRA says its advanced sensor-based sorting technologies can provide mining operations with the energy efficiency and ore recovery benefits they require to reduce their environmental footprints.

The ability to recover valuable ore from even sub-economic deposits or dumps has become increasingly relevant as the energy-intensive mining industry shifts towards a ‘Green Mining’ approach, according to the company.

Tord Svensson, TOMRA’s Head of Sorting Mining, explains: “For a mining company to become more sustainable and profitable, it requires a shift in focus that places more value on potentially limited commodities like water and ore.

“To achieve an environmentally-focused and efficiency-oriented production process – which is integral to Green Mining – it is necessary to implement solutions right from the beginning of the process. This is where ore sorting equipment comes in: using these technologies in the early stages of mining reduces waste material and shrinks the carbon footprint, while increasing profitability.”

TOMRA is a pioneer of sensor-based sorting technologies, offering smart technologies for sorting and separating a variety of valuable substances. Its solutions range from industrial mineral processes to sorting gemstones, ferrous and non-ferrous metals, coal and other fuels and slag metal.

The sensor-based sorting technology not only significantly reduces the amount of energy and water required, compared with more traditional methods such as grinding and dense media separation, but also maximises the efficiency and quality recovery of valuable ores, according to TOMRA.

X-ray transmission (XRT), one of TOMRA’s leading solutions, separates dry material of various ore and minerals based on their atomic density, irrespective of surface properties and thickness. This means it is not necessary to crush or grind every rock into smaller particles, which results in massive savings of energy, water, and their related costs, according to the company.

“Considering that grinding is the most energy-intensive part of the production cycle, as an estimated 50-75% of the energy used in mining is for the liberation and comminution of ore and minerals, this technology can have a significant impact on the sustainability and profitability of a mining operation,” TOMRA said.

Pre-concentration techniques like sensor-based sorting are proven to reduce energy consumption by about half, resulting in a considerable reduction of the CO2 footprint and providing a highly cost-effective solution, the company added.

TOMRA has created a Green Counter on its website that displays the total amount of CO2 reduced through the use of its sorting machines in real time. It uses the smart technology within the equipment, which records the amount of rock sorted and eliminated, as well as throughput and total hours of operation.

“With this data, TOMRA and mining companies are able to calculate the energy in kWh saved by not treating the waste which has been removed by the sorters,” the company said. “The amount of energy saved is converted into CO2 equivalents, which in turn are converted into CO2 metric tonnes.”

Through the use of TOMRA sorting machines, client companies have saved 123,696 t of CO2 in 2018 alone, the company said.

The company concluded: “TOMRA’s sorting solutions have proven to be more than just technological innovation – they are also considered the benchmark for industry standards in both efficiency and sustainability. TOMRA remains committed to evolving its technology with a clear focus towards preserving our shared natural resources.”

CRC ORE grade engineering trial pays off for Minera San Cristóbal

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A successful full-scale production trial of Australia-developed grade engineering techniques is paying dividends for a South American mine, and its local workers, according to CRC ORE.

Once fully implemented, this is expected to generate an additional A$451 million ($312 million) in profit for the mine and reduce its energy consumption, it said.

Located in the south-western Bolivian province of Nor Lípez, and owned by Sumitomo, Minera San Cristóbal (MSC) is the country’s largest mine. Operating since 2007, the mine produces around 1,500 t/d of zinc-silver and lead-silver concentrates. To achieve this result, MSC needs to move a daily average of 150,000 t of rock – ore and waste.

Part of MSC’s vision is to “develop a model mining operation through safe operations, at low cost, with innovative technology”.

Through its wholly-owned subsidiary, Summit Mining International, Sumitomo is a participant of the Cooperative Research Centre for Optimising Resource Extraction (CRC ORE). Based in Brisbane, Australia, CRC ORE works to minimise the impact of declining grades and radically improve the productivity, energy and water signatures of mining operations, CRC ORE said.

The centre is jointly funded by what it calls ‘Essential Participants’, which includes mining companies such as Sumitomo; mining equipment, technology and services (METS) companies; research organisations; and the Australia Government.

One of CRC ORE’s key solutions developed for the mining industry is grade engineering. “This solution deploys a range of waste rejection technologies that integrate with a suite of separation technologies relevant to ore specific characteristics,” CRC ORE said. “A deeper understanding of the orebody can be achieved, leading to the ability to exploit inherent ore deposit heterogeneity and variability.”

For mining operations such as MSC, this involves an innovative approach to the early separation of ore from waste material, minimising the impact of declining grades and productivity.

CRC ORE and MSC teams conducted site studies and analysis in 2017 to determine the level of opportunity available at the mine by deploying grade engineering, and a great deal of potential was evident.

Since late 2018, CRC ORE and Sumitomo have been working together on a full-scale production trial of grade engineering using screening at MSC. A Metso Lokotrack ST2.8 mobile screening plant, which can process up to 450 t/h, was deployed on site to assist in providing a production-scale testing capability.

The trial focused on upgrading mineralised waste from the pit to determine if grade engineering could efficiently produce a new economic stream of valuable material that could then be combined with run of mine feed through to the concentrator and produce a positive net smelter return.

CRC ORE Chief Executive Officer, Ben Adair, said initial results of the trial were impressive and encouraging, with 66% of value now contained in just 25% of the grade engineered mass.

“So far, results show that by applying grade engineering to areas previously designated as ‘mineralised waste’, the value of grade engineered feed to the mill can be increased by over 2.5 times,” Adair said.

“This has the potential to convert this waste material into high-grade ore feed with associated opportunity to increase metal production and reduce process power and water intensities.”

A 15-20% reduction in energy has been evident in the mine’s SAG mill when processing a combined grade engineered and direct run-of-mine feed, according to CRC ORE.

The success of the grade engineering trial has led to Sumitomo considering deployment of grade engineering techniques for life of mine extensions, CRC ORE said.

MSC Operations Director, Dave King, said: “The big benefit of grade engineering is its potential ability to extend the life of the mine and add over A$451 million in profit to its value.”

To fulfil its goals of knowledge transfer and for its technology to directly benefit the local mining industry, CRC ORE says it has recently commenced similar production trials at Australia mining operations.

Turkey’s Mikroman ups product quality, throughput with TOMRA ore sorters

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Turkish quartz miner, Mikroman has been able to both improve product quality and increase capacity at its three processing plants in the country thanks to the installation of four TOMRA Sorting Solutions high-capacity sensor-based sorting systems, the technology company said.

Mikroman mines quartz from its open-pit operations in Turkey, with the company running its own mineral processing plants for crushing, washing and sorting the raw materials.

In 2018, the company installed a TOMRA PRO Secondary LASER sorting machine in two of its three plants, in Muğla and Aydin Provinces. The third plant, in Usak Province, invested in a LASER sorter plus a COLOR sorter, according to TOMRA.

TOMRA says: “In addition to being the most efficient way to sort particles, sorting machines deliver a wide range of commercial advantages to industrial mineral sorting businesses. These include a decrease in mining and haulage costs; reductions in energy and water consumption; improvements in quality and productivity; and increases in recovery.”

The company added: “Sensor-based sorters also make it possible to significantly increase the lifetime of a mining operation.”

TOMRA’s Area Sales Manager, Jens-Michael Bergmann, said TOMRA’s COLOR sorting machines employ a high-resolution camera that recognises materials based on their color. “Rocks with surficial and visible contamination are detected and sorted out, resulting in better recovery rates and higher quality than is possible with manual sorting,” he said.

“Our unique multi-channel LASER sorter delivers even greater benefits for Mikroman in achieving the highest purity levels and maximum profits. The scattering effect of multiple laser beams distinguishes a rock containing quartz from its identically coloured neighbor. Under the laser beam, a pure or non-contaminated quartz rock registers as a glow crystal, whereas similar looking rocks with no quartz content remain dark, without any visible scattering.”

Mikroman combined these two technologies for best results and recovery, according to TOMRA.

Of all three Mikroman processing plants, the one in Usak Province demands the most precise mineral sorting. Before sorting, the feed material is screened by size, with the 40-100 mm stones treated with a higher priority and stones measuring 20-40 mm in size sent down the sorting line in a separate batch. Here, the combination of a TOMRA COLOR sorter and TOMRA LASER sorter is used to differentiate products according to four predetermined qualities. These are:

  • White and light grey quartz, with low iron oxide content, for use as artificial stones (A);
  • Grey and yellow quartz, for use by the glass industry (B);
  • Coloured quartz, for ferrosilicon used by the metallurgical sector (C), and;
  • Coloured gravel (D), also for ferrosilicon, currently goes with the waste.

After crushing and washing (through a trommel screen), Mikroman’s sorting process consists of four key steps. In the first step, minerals are screened by size, with only stones measuring 40-100 mm going through to the next stage.

In the second step, the LASER machine sorts out the waste and coloured gravel from the quartz pieces at about 70 t/h capacity. In the third stage, the remaining minerals are sorted into two streams: one for colored quartz; the other for the white and light grey quartz, and the grey and yellow quartz. Finally, these two streams are hand-sorted into product types, with some further removal of remaining gravel and waste.

“These precise distinctions, resulting in higher product quality, were not possible before the acquisition of the TOMRA machines,” TOMRA said, adding that its service team worked on-site with Mikroman, as it does with all customers, to optimise the performance of the machines.

Nazmi Çetin, Mine and plant Manager at Mikroman, said: “Before having TOMRA sorters, we were worried about quality and low capacity, but now we have achieved the desired quality standard and we have seen a decrease in waste, which means productivity has increased. The system design is quite successful and the TOMRA service team are good at their job.”

Saturn Metals makes ore sorting ‘breakthrough’ at Apollo Hill gold project

Comminution of minerals, Metallurgy, Mineral exploration, Mineral processing, Mineral project development, Mining services, Mining software, Precious metals, , , , , ,

Saturn Metals is heralding the first pass results of a laser ore sorting test at its Apollo Hill gold project, near Leonora in the Western Australia goldfields, saying there is potential for using this type of mineral processing upgrade on a future mining operation.

Testing using a STEINERT Fines KSS L machine showed mineralised quartz can be efficiently separated from non-mineralised host basalt, according to the company, with the first sorting test achieving a 1.5x upgrade to the grade of a sample, taking material from 0.78 g/t Au to 1.2 g/t Au. Alongside this was a strong gold recovery of up to 91.9% with only two ore sorting passes.

Other notable results from this test work included a 28% volume reduction, which was achieved through the effective ejecting of a significant portion of waste rock and marginal material and, importantly, only 0.55% of the gold in sample was lost to fines in preparation for ore sorting (crushing and wet screening to +10 mm ore sorting size). “This low figure is considered a positive result as loss of metal to fines can otherwise render ore sorting ineffective,” the company said.

Saturn explained: “Ore sorting, particularly with strong recovery results as seen in the test conducted at Apollo Hill, can result in a more efficient mineral processing solution being developed for mining projects, with smaller tonnages of higher-grade material being beneficiated for mineral processing. This can potentially reduce the size and cost of mineral processing circuits, or increase gold milling capacity, and, in turn, positively impact overall project economics.”

Successful ore sorting treatment of selective higher-grade material from Apollo Hill could also lead to truck and toll treatment options for the deposit, according to the company.

Following these initial results, the company is planning further test work to refine and improve the application of ore sorting technology at Apollo Hill, it said.

Saturn Managing Director, Ian Bamborough, said the results were a “very important breakthrough” for project, which currently contains an indicated and inferred mineral resource of 20.7 Mt grading 1 g/t Au for 685,000 oz of gold.

“Positive ore sorting results have the potential to deliver a step change in the feed grade of material delivered into any mineral processing circuit,” he said. “Subject to further positive results, we may have the potential to significantly improve options for the economic development of Apollo Hill.”

Agnico Eagle talks LTE, automation and ore sorting in Q1 results

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Agnico Eagle Mines highlighed a number of initiatives in its March quarter results as the company continues its ambitious growth plan to hit the 2 Moz production milestone in 2020.

The headline numbers might have disappointed investors – net income dropped to $37 million from $44.9 million a year earlier, on the back of lower gold sales volumes, realised gold prices and by-product revenue – but there was plenty to be excited about for the future.

Group output of 398,217 oz in the first three months of the year puts the company on track to achieve 2019 production of 1.75 Moz of gold (1.63 Moz in 2018), Agnico Eagle said, while the company’s Meliadine gold mine in Nunavut, Canada, was due to achieve commercial production next month. This is expected to be followed by the company’s nearby Amaruq project producing first gold in the September quarter.

On the technology front, Agnico reported on its communication infrastructure efforts at its deep LaRonde gold mine in the Abitibi region of Quebec, Canada.

Following the successful deployment of its LTE network at LaRonde Zone 5, the company deployed an LTE network at the LaRonde mine below level 269 in 2018. Extension of the network in the ramp area from level 269 to surface and at LaRonde 3 will take place throughout 2019, Agnico said.

“The LTE network facilitates the integration of automation technologies currently being tested at LaRonde Zone 5, which are expected to allow the company to maintain similar productivity levels at LaRonde 3 as it historically achieved in the shallower portions of the mine,” the company said.

And, on those automation trials at LaRonde Zone 5, Agnico said: “Integration and pilot testing of automated mining equipment (two trucks and one scooptram) continued in the first (March) quarter of 2019 and will be ongoing over the balance of the year.”

Last year, Agnico Eagle confirmed its ore sorting plans at its Pinos Altos operation in Mexico. This included the installation of a pilot plant at the mine.

The company said, in its March quarter results, samples will be processed from all of the orebodies at Pinos Altos and La India in 2019 to determine the merits of implementing the technology at its Mexican operations.

“To-date, sorting of open-pit ore from the Sinter deposit has yielded favourable preliminary results,” it said, adding that similar ore sorting pilot testing is being considered at the company’s other operating regions.

Newcrest to apply ‘unique technical capabilities’ to copper-gold mine in BC, Canada

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Newcrest Mining has entered into an agreement to acquire a 70% joint venture interest in Imperial Metals’ Red Chris copper-gold mine and surrounding tenements in British Columbia, Canada, for $806.5 million.

The deal will see Newcrest become Red Chris operator, in charge of deciding how to exploit the copper-gold porphyry open-pit mine.

Newcrest said the acquisition of Red Chris was “a measured entry” into North America and aligned with its stated strategic goals of building a global portfolio of Tier 1 orebodies where Newcrest can “deliver value through application of its unique operating capabilities”.

Red Chris comes with a mineral resource of 20 Moz of gold and 5.9 Mt of copper. The acquired property comprises 23,142 ha of land with 77 mineral tenures, five of which are mining leases, and sits within the traditional territory of the Tahltan Nation.

Newcrest Managing Director and CEO, Sandeep Biswas, said: “We are delighted to add this asset into the Newcrest portfolio. Following due diligence, we believe we can bring our unique technical capabilities to unlock the full value potential of this orebody in one of the premier gold districts in the world.

“We have identified a clear pathway to potentially turn this orebody into a Tier 1 operation. The geology of Red Chris is similar to our Cadia orebodies in Australia and we will be applying our considerable experience in exploration, open-pit mining, caving and processing to maximise the value of Red Chris and the opportunities in the surrounding region. We look at this opportunity in the same way as we do with Cadia, where we have proven we can create significant value from deep underground porphyry orebodies.”

Following the intensive due diligence process Biswas mentioned, Newcrest said it has a two-stage plan to deliver value from the acquisition:

Stage one will see the company apply its “Edge transformation approach” to the existing Red Chris open-pit mine and processing plant.

“Newcrest believes it can add significant value to Red Chris by applying the same Edge mind-set and approach that has led to significant operating improvements across all Newcrest operations over the last five years,” the company said.

Examples of where successful changes have been implemented to safely accelerate cash maximisation include process plant optimisation (debottlenecking, recovery uplifts, process control, improving concentrate quality), mine optimisation (improving orebody knowledge, grade control, fleet management system, mine planning) and supply chain cost reduction, according to Newcrest.

As part of this stage, Newcrest said it will initiate an extensional drilling programme.

“Newcrest intends to optimise the current open-pit mine plan and pursue initiatives to improve operational productivities and milling recoveries,” Newcrest said.

The current open-pit mine has an existing 11 Mt/y processing plant and associated infrastructure which allows ‘brownfield’ expansion options in the future, it added.

Stage 2 will see the company apply “industry leading technology”.

The company said: “Newcrest believes it can add significant shareholder value by applying technology to Red Chris that it has successfully applied at its other operations.”

Examples include block caving – “Newcrest believes the orebody has the potential to become a high margin bulk underground block cave. Newcrest will accelerate the necessary drilling and studies. Newcrest intends to conduct studies and review the ore reserve of the Red Chris operation to allow for reporting in accordance with JORC 2012 to take into account the potential transition to a future block cave operation.”

Coarse ore flotation could also be considered, the company said.

“Having demonstrated the recovery benefits of coarse ore flotation at Cadia, Newcrest will look to apply this technology to Red Chris,” Newcrest said.

And, then there is the application of one of the most popular technologies today: ore sensing and sorting, of which Newcrest said: “Positive results from trials underway at Telfer may lead to this technology being deployed at Red Chris.”

In terms of exploration, Newcrest said it would apply its experience in deep underground brownfield and greenfield exploration on the existing orebody and the broader land package to potential uncover more tonnes of copper and ounces of gold.

“Newcrest has identified opportunities to expand Red Chris’s mineral resources along strike and at depth in areas where there has been limited deep drilling to date. Historical shallow drilling indicates that there is also potential for further deep discoveries to be made in the larger tenement package.

“Newcrest will be targeting prospective regions beyond the current mine looking for further porphyry centres including small footprint, higher-grade gold-rich porphyry systems leveraging knowledge gained from Cadia which has similar geological features,” Newcrest said.

Red Chris, on the northern edge of the Skeena Mountains, commenced construction in 2012 and was completed in November 2014 for a total cost of C$661 million ($492 million). Commercial production commenced in July 2015 and, in the first nine month of 2018, the mine produced 20,320 t of copper and 29,569 oz of gold.

Anglo American on the potential of bulk sorting technology

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Anglo American has talked up the use of bulk sorting in its operations as one of several projects it is spending $100-$500 million/y on as part of its technology and innovation investments.

The company, which reported earnings before interest, taxes, depreciation and amortisation of $9.2 billion for 2018 (up 4%), said bulk sorters could potentially be applied to all of its copper assets, in addition to mines in its Platinum Group Metals and Iron ore divisions.

An Anglo spokesman told IM late last year that the technology was going into the El Soldado copper mine in Chile and the company had plans to introduce it at the Barro Alto nickel operation in Brazil and the Mogalakwena platinum group metals mine in South Africa (pictured) as “next steps”.

The bulk sorters in question use sensors to determine ore content prior to processing, with gangue removed using the natural heterogeneity of orebodies.

In the company’s 2018 results presentation, Anglo said this technology provides immediate grade assays, unlocks production capacity by rejecting waste early in the process, allows for lower cutoff grades – as a result extending mine lives – and reduces both mining costs and complexity.

In a copper-related context, Anglo said the use of bulk sorters could reduce water and energy intensity by more than 10%.

In British Columbia, Canada, Teck Resources is currently using sensors mounted on shovels – MineSense’s ShovelSense product – to carry out effective bulk sorting at the Highland Valley Copper operations.