Tag Archives: XRF

MineSense front and centre in bulk ore sorting game

Automation, Base metals, Bulk handling, Comminution of minerals, Environmental, IoT, Metallurgy, Mineral processing, Mining equipment, Mining services, Mining software, Steel and iron ore, , , , , , , , , , , , , , , , , , , , , , , , ,

Having just commercialised its bulk ore sorting technology at Teck Resources’ Highland Valley Copper (HVC) operations in British Columbia, Canada, MineSense is looking to show the wider industry just how effective this pre-concentration process can be.

IM spoke with President and CEO, Jeff More, to find out more about the company’s ShovelSense and BeltSense technologies and how the Vancouver-based startup has been able to secure investment from the likes of ABB, Caterpillar and Mitsubishi.

IM: Can you explain in a little more detail how your ShovelSense and BeltSense solutions work?

JM: The base technology for both is X-ray Fluorescence (XRF) – a technology that has been around for some time. What we have done to this existing technology, which is quite unique, is three things:

  • One, we have extended dramatically the range of XRF. Traditionally XRF would almost have to be held to the surface of a rock to get accurate measurements. The range extension allows us to work in the shovel environment where we are working across metres of volume;
  • Second is speed. Our system is extremely fast. High speed analysis is required on our conveyor belt applications, but this is even more important in the shovel, where we’re measuring dynamically; as the material is flowing into the shovel, to get a representative reading, you have to be able to take very fast readings of the material as it is moving past the sensors;
  • The third is robustness. On a shovel, you are in a nasty environment from a shock and vibration perspective. We developed a system with sensitive components – the XRF itself, as well as the computing devices around it – that can stand up to that very high shock- and vibration-type environment.

IM: The most high-profile examples of the application of your ShovelSense technology have been at copper mines (HVC, in particular); is the detection technology particularly effective in these ores? Is it being trialled elsewhere?

JM: The current sensing we have with the XRF is very effective in a certain section of the periodic table, which nicely covers the major base metals. We’re focused on copper, nickel, zinc and polymetallic versions of those three. The fourth area of focus is iron ore.

We’ve selected copper as our first focus because of the size of the market and the geography. We have done most of our work in copper, but we now also have operating systems in nickel and zinc.

On a lab scale, the technology has been very effective in iron ore, but iron ore is a very different flow sheet, so we have purposely set it as our fourth market in what we call our primary clusters.

We have five mine site customers at the moment – three copper, one zinc-lead and one nickel-polymetallic.

We were very much focused on North America and, in particular, British Columbia for our first pilots and trials as it was quite easy for us to service in our back yard. The first international market was Chile, for obvious reasons in terms of copper production, and we now have a full MineSense entity and team operating in Chile and Peru.

We’re staggering the rest of our global expansion. We’re now quite active from a business development perspective in southern Africa – South Africa, Zambia, DRC – and have activity in Australia.

We have Systems installed at two different copper mines in British Columbia, one at a very large nickel-polymetallic complex in Sudbury, Ontario, and will have a fourth system operating in Alaska. We also have two mines, but four systems, operating in Chile. By the end of Q2, we will have another three systems operating in Chile.

We did all our development work for the system at Teck’s HVC operation and we’re now completely commercial there. We officially commissioned our first system in December, the second system is being commissioned as we speak and the third and fourth will be installed and commissioned in late-March. This will completely equip their fleet.

IM: Teck has previously said the use of ShovelSense has resulted in “a net measurable increase in the amount of ore (and the associated head grade)” it has available to feed its mill at HVC. Are these results in keeping with your expectations for the technology?

JM: Yes, absolutely. We base everything on, what we call, our value model. Very early in our engagement process, we set out a detailed model that calculates the profit improvement that mine will see – we did the same for Teck HVC.

We agreed on a target at HVC and are actually exceeding that estimate. Most importantly, Teck is also seeing that value and is estimating a great overall impact at that mine.

This is an abridged version of a Q&A to be published in the ore sorting feature in the March issue of International Mining.

Hecla testing out XRF ore sorting at San Sebastian silver-gold mine in Mexico

Automation, Bulk handling, IoT, Metallurgy, Mine operation news, Mineral processing, , , , , , , ,

Hecla Mining is carrying out ore sorting proof of concept work at its San Sebastian silver-gold mine in Durango, Mexico, CEO Phil Baker told attendees at the Mines and Technology conference this week.

Baker said an algorithm based on X-ray Fluorescence (XRF) technology was determining whether the rock coming through from the mine was ore or waste.

San Sebastian, which produced 3.3 Moz of silver and 25,177 oz of gold last year, recently moved over to underground operations after open-pit mining concluded at the end of 2017. In 2018, it is expected to produce 2-2.2 Moz of silver at a cash cost, after by-product credits, of $9.50/oz, while gold production is expected to come in at 15,000-16,000 oz.

The company’s concession holdings in Durango are in the middle of the prolific Mexican Silver Belt and cover approximately 42,000 ha. Mineralisation in the district is structurally controlled and hosted in sedimentary rocks, with many companies in the region mining high-grade veins.

Hecla is weighing up whether to start mining sulphide ore at the deposit, which could potentially extend the mine’s life by some five years.

While Baker said test work on XRF ore sorting at San Sebastian was ongoing, he did see potential for the technology being applied across the mining sector.

“The real issue with ore sorting is: what is your recovery going to be? How much are you going to lose? And, we’re still working through that (at San Sebastian). But I have high hopes for this being a complete gamechanger for the industry,” he said at the event in London.

“The cost of sorting is quite low. If you’re able to get a high enough recovery, then you can afford to do more productive methods of mining for small tonnage operations. It could completely change how you go about mining.”

Last month, Agnico Eagle Mines said it was in the process of installing an ore sorting pilot plant at its Pinos Altos gold-silver operation, also in Mexico.