Tag Archives: Wedel

TOMRA Mining looks at the ore sorting fine print with latest innovation

TOMRA Mining says it is breaking new ground with a new ejection module for its COM Tertiary X-ray Transmission (XRT) sensor-based sorter specifically developed for sorting small particle sizes.

The COM Tertiary XRT Fines sorter, featuring the new TS100C module and the recently introduced image processing unit, is capable of sorting particle sizes down to 4 mm in high-capacity applications with much higher energy efficiency, delivering a high-quality product at low operating costs, according to the company. Field tests have shown that it can deliver a 70% reduction in energy use on a production scale.

The new high resolution TS100C ejection module features a new type of ejector that is four times faster than previous iterations. Together with the new image processing unit, it delivers higher precision in sorting small particle sizes at high throughputs. The mechanical design of the sorter has also been improved by the introduction of a new splitter plate and more precise calibration equipment to ensure the greater precision in the alignment between detection and ejection systems required for fine particles, according to TOMRA.

The fast and highly precise ejection module uses significantly less compressed air to eject the particles, therefore, reducing the energy consumption. Extensive test work was conducted at the TOMRA Test Center, both with artificial material mixtures and real-world sample material. The tests showed a reduction in air consumption compared with industry standards, as well as an improvement in product purity of around 15%, the company reports.

“With the consequent cut in operating costs, sorting small particle sizes down to 4 mm with the COM Tertiary XRT Fines sorter is not only viable, but adds value to the process,” it said.

Ines Hartwig, Director Product Management at TOMRA Mining, said: “We are receiving a rapidly growing number of requests from customers to sort smaller particles. One of the biggest drivers of cost in sensor-based sorting is the energy used for the compressed air for the ejectors. The new TS100C ejection module successfully addresses this issue and provides an effective solution to this increasing demand. It is a groundbreaking invention to create more higher-value product and reduce product loss.”

Ines Hartwig, Director Product Management, TOMRA Mining

To gain field experience on the new ejection module, TOMRA partnered with a customer who has been running a COM Tertiary XRT to produce high-grade magnesite for more than two years. The sorter removes up to 50% low-grade and waste material from the raw magnesite feed, with particle sizes ranging from 10 to 35 mm at about 20 t/h.

“After conducting the test work with the TS100C ejection module at the TOMRA Test Center, we were confident that it would be very beneficial for this customer,” Hartwig says. “We showed them the test results and outlined the benefits we expected the module to deliver. As soon as they saw the possible reduction in compressed air use and the consequent cost savings, they were very interested in doing the field trial!”

The customer completed several trials, documenting the energy savings and sorting efficiencies. The results showed a 70% reduction in air consumption with an increase in product recovery with a lower mass pull to waste by producing the same product quality, and a capacity increase ranging from 20 t/h to 30 t/h with comparable results, according to TOMRA.

The COM Tertiary XRT Fines sorter featuring the new TS100C ejection module has been installed at the TOMRA Test Center in Wedel, Germany, and is ready to run tests for customers on material samples from their mines, TOMRA says.

TOMRA XRT ore sorters providing Mt Carbine with tungsten upgrade, circular economy advantages

TOMRA X-Ray Transmission (XRT) sorters are providing a game-changing solution for the EQ Resources-owned Mt Carbine mine in Queensland, Australia, reducing costs and achieving high-purity tungsten ore for follow-on processing while contributing to a circular economy by producing green aggregates for sale, the ore sorting company says.

The Mt Carbine mine, northwest of Cairns, Queensland, was acquired by EQ Resources in 2019. The company entered a joint venture with Cronimet Group to set up tungsten extraction from the mine’s large waste dump and tailings. It is also planning to operate the open pit and underground mine, of which it has full ownership.

EQ Resources management has a long-standing relationship with TOMRA, having used its sorters with success on a variety of projects since 2011, TOMRA says. Based on this experience, the company turned to TOMRA once again for the Mt Carbine mine, with test work conducted at TOMRA’s Test Center in Wedel, Germany, confirming its XRT technology would provide the solution for the project.

“We were confident it would work, but we sent a small sample for testing to make sure,” Kevin MacNeill, CEO of Mt Carbine mine, EQ Resources, said. “The advantage of TOMRA’s sorters compared to others is in the image resolution: it is able to resolve the finer inclusions in the tungsten. This high resolution gives us better recovery and more control over the sorting process.”

Mt Carbine is currently mining the 12 Mt of low-grade historical stockpiles. The ore is crushed and screened at 6 mm and 40 mm. Two TOMRA XRT sorters are used to pre-concentrate the feed in the 6-40-mm-size range before processing in the wet plant. Approximately 10% of the sorters’ feed mass is ejected as product with a recovery of tungsten of well over 90%. This means only 10% of the mass is processed in the wet plant, dramatically cutting running costs, reducing the required size of the wet plant, as well as saving water and energy, TOMRA says.

“We let the technology do the work for us and take out all the rubbish and we’re left with just the pure tungsten to send to the processing plant – and we do that very cheaply using the sorters,” MacNeill says. “One of the best things about the TOMRA XRT is the cost savings to the operation. It costs approximately A$1.5/t ($1.02/t) to sort and then it costs A$14/t for wet processing: as we take out 90% of the sortable fraction mass, we only have to process 10% of the higher grade concentrate and natural -6 mm material while maintaining recovery, so our cost benefit is obvious.

“We couldn’t afford to run this waste dump if we had to crush everything to 6mm and process it through the wet plant, it would be too low grade and costly.”

EQ Resources is also taking advantage of the TOMRA XRT sorters to create an additional revenue stream from the waste material.

MacNeil explained: “Normally you would grind the waste down to 6 mm and put it through the jigs, but, by putting it through the TOMRA sorters, we are able to keep a whole range of aggregates on the coarser size fractions. The sorters remove any material containing acid-forming sulphides and the waste rock that comes out is incredibly clean. We are, therefore, able to use it in making all kinds of different quarry products – from road bases to concrete aggregates. It’s a perfect example of a circular economy.”

“Selling these green aggregates adds a significant portion to our business – about A$5 million a year – and that’s all because of the TOMRA sorters. In fact, we’ve probably paid for each machine from this revenue five times over.”

The TOMRA XRT sorters are delivering both environmental and business benefits to the Mt Carbine operation, to the satisfaction of MacNeill: “They’re dry, they create no water usage, they require very little power compared to what we use in the processing plant, so it’s a real advantage to us to have these, and we’re looking at purchasing a third one in the near future.

“From an environmental point of view, I think the TOMRA sorters will play a huge role in the future because of their capability of removing sulphides. If you remove sulphide before stockpiling waste rock, you will have the benefit of no acid creation and drainage – and it would reduce your footprint in your closure plans.”

Vast sees path forward at Manaila with help of TOMRA’s XRT ore sorting solution

Vast Resources says it is continuing to evaluate the recommencement of production at its Manaila polymetallic mine in Romania and, as part of this process, has been working with TOMRA to assess the suitability of X-ray Transmission (XRT) ore sorting technology to optimise the mine’s production profile.

The assessment has demonstrated, to date, that by installing an XRT machine at the plant to pre concentrate ore at the pit, the technology would be highly effective for three main reasons:

  • A reduction in transportation costs as improved mass reduction would significantly reduce the material being transported from the mine to the processing plant;
  • A reduction in processing costs due to reducing the throughput at the plant; and
  • Higher-grade product being delivered to the plant.

It is anticipated that processing and transportation costs could be reduced by up to 55%, according to Vast.

“This cost reduction could have a dramatic impact on the mine’s financial performance,” the company says.

Samples from both types of mineralisation at Manaila, massive sulphide and disseminated sulphide, were sent to the TOMRA Test Centre in Wedel, Germany, to ascertain improved mass reduction and grade upgrade potential. Both mineralisation types showed amenability to the XRT process with metal content recovery on the massive sulphides at 95.4% for copper, 93.6% for lead and 95.2% for zinc in 71% of the mass, the company explains. The disseminated sulphides returned a metal content recovery of 84.2% for copper, 67.2% for lead and 84.4% for zinc in 35% of the mass.

The combined results show that 93.1% of copper, 82.2% of lead and 92.4% of zinc metal could be recovered in 45% of the mass when mining the polymetallic ore on a ratio of three tonnes disseminated sulphide to one tonne of massive sulphide, being the typical historical ratio of mining at Manaila.

Andrew Prelea, Chief Executive Officer of the Vast Resources, says: “These results clearly underpin our view that Manaila is economically viable, and the management team are considering various mine plan scenarios of bringing Manaila back into production.”

The 138.6 ha Manaila-Carlibaba exploration licence contains a JORC 2012 compliant measured and indicated resource of 3.6 Mt at 0.93% Cu, 0.29% Pb, 0.63% Zn, 0.23 g/t Au and 24.9 g/t Ag with inferred resources of 1 Mt at 1.1% Cu, 0.4% Pb, 0.84% Zn, 0.24 g/t Au and 29.2 g/t Ag. Comprising the Manaila polymetallic mine (currently on care and maintenance) and the Carlibaba extension project, Vast intends to establish a larger mining and processing facility at Manaila-Carlibaba which would eliminate the need for costly road transport of mined ore to the existing processing facility located at Iacobeni, around 30 km away.

Preliminary studies by the company indicate the potential for a new open-pit mine to exploit mineral resources to a depth of some 125 m below surface, and to simultaneously develop a smaller higher-grade underground mine below the open-pit mineral resources.