Tag Archives: Conveyors

Belzona 1814 to protect chutes, hoppers and screw conveyors

Equipment maintenance, Mining equipment, Mining maintenance, , , , , ,

Belzona has released a new epoxy-based material to, it says, resist the harshest abrasive environments typically found in the mining, cement, pulp & paper, biomass and other industries.

Belzona 1814 can be applied with a brush or a float to protect assets preventing metal loss and subsequent downtime, either on its own or as part of a system with alumina tiles, the company says.

Supplied in 30 kg units, compatible with mechanical mixers and boasting a long working life, Belzona 1814 is most suited for application to large assets, including chutes, hoppers and screw conveyors, according to Belzona.

Belzona R&D Manager, Jason Horn, said: “There was a need for a lasting abrasion protection system, which can be easily mixed in large volumes and applied over sizeable areas.

“Our second objective was to create a formulation with performance equal to our existent abrasion resistant materials, while keeping the costs down – the benefit of which could then be passed onto our end users.

“We believe, with Belzona 1814, we have produced a high performance and cost-effective system.”

Anglo American’s FutureSmart Mining on its way to tangible technology results

Automation, Base metals, Bulk handling, Coal technology, Comminution of minerals, Environmental, Explosives and blasting, IoT, Mineral processing, Mineral project development, Mining equipment, Mining industry recognition, Mining people, Mining policy, Mining safety, Mining services, Mining software, Mining techniques, Steel and iron ore, Sustainable mining, Water management, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

“It’s clear that the pressures on us are unsustainable, whether it is around our carbon footprint, water footprint, or physical footprint, and we are always looking for different ways to push us in this future direction where our footprint will be very different.”

Tony O’Neill, Anglo American Technical Director, knows the company he works for is up against it when it comes to retaining its reputation as one of the world’s leading sustainable mining companies.

It’s clear from the company’s 2018 sustainability report – which saw it achieve a best-ever performance in terms of injuries, a cut in energy use and an increase in greenhouse gas emission savings – that Anglo is going down multiple paths to reach its goals. O’Neill, who joined the company almost six years ago, believes Anglo’s FutureSmart Mining™ programme will play a major role in confronting and overcoming many of the issues it (and the industry) is facing.

“If you look at FutureSmart Mining, at its absolute essence, it is about footprint; how do you change the footprint of mining? How do you have a mine that draws no fresh water? Mines without tailings dams? Mines that look very different?” he told IM.

“It’s getting people to believe there is a different way for mining in an industry that has, to this point, been quite traditional. It is not going to happen overnight, but I think we have a genuine vision that is, in my view, quite feasible.”

IM spoke with O’Neill and Donovan Waller, Group Head of Technology Development, this week to get to the bottom of how technology is making Anglo ever more sustainable.

IM: Could you explain how the Anglo operating model facilitates and fosters innovation within the context of FutureSmart Mining?

TO: The Anglo American operating model is the chassis that underpins everything, giving us certainty in the delivery of our work. When you have got that stability – and the lack of variability – in your business outputs, it is much easier to overlay new technologies and processes. When you then see a difference in operating or financial results, you can confirm it is down to what you have implemented, rather than the underlying processes.

I look at it a little bit like a three-legged stool: you have the operating model on one leg, the P101 benchmark-setting on another, and technology and data analytics on the third leg. They all co-exist in this system and work off each other. Without one, the stool falls over.

The operating model has given us a drumbeat of delivery, and we get the licence to innovate because of this drumbeat.

IM: Do you think FutureSmart Mining is starting to be understood and valued by investors?

TO: They’re awake to it now. I think it is still in the early stages of the story, but they can see what we are doing and the ambition behind it. Ultimately, it will result in a different investment profile, or more investors because of it, but I am not sure that it’s translated in full up to now. The recognition has been more around the general results of the company.

With all these technologies coming through – much of them driven by higher levels of data and the ability to interrogate that data – the vision we imagined way out into the future, I think, is a lot more tangible than when we started out four years ago.

IM: Out of all the tailings dam elimination work you are carrying out (around passive resistivity, fibre-optics, micro-seismic monitoring, coarse particle recovery, polymers, and dry stacking), which innovation will have an impact on Anglo’s operations in the next three-to-five years?

TO: All of them. We started out with our tailings programme in 2013; in fact, our group technical standards were re-issued at the beginning of 2014 and they are now one of the main guidelines the ICMM (International Council on Mining and Metals) uses.

Tailings dams have always been at the back end of the mining process and, in a way, the science behind them has never been part of the mainstream operation. Our view, internally for many years, is tailings dams are one of the industry’s greatest risks.

“Our view, internally for many years, is tailings dams are one of the industry’s greatest risks,” Tony O’Neill says

Ultimately our aim is to eliminate tailings dams. Period. Coarse particle flotation – getting that coarser particle size that drains much more freely – is core to that and you can see a development pathway there. For example, with some of these new flotation techniques, we now only need 1% exposure of the mineral for it to be effective. In the past, it was much higher.

When we upgraded the capability of our tailings organisation, it became clear we needed to get a lot more data off these tailings dams. About three years ago, we started putting fibre-optic sensors into the dams. We have since developed, through our exploration arm, passive resistivity seismic monitoring, which basically tells you where your water sits in the dams. And, we’re putting into Quellaveco micro-seismic measuring techniques, which will be more granular again. You can see the day coming really quickly where tailings dams are a real-time data source for mining companies.

We’re also, with our joint venture partner Debswana, building the first polymer plant in Botswana, which could have an impact on dry tailing disposal.

The thing we need to crack – both ourselves and the industry – is how to dry stack at scale. At the moment, that is still a work-in-progress, but it is doable in the long term.

IM: How is the bulk sorter you have operating at El Soldado, which is equipped with a neutron sensor, working? How has it made a difference to recoveries and grades at the operation?

TO: With the bulk sorter, we’re taking packages of tonnes rather than individual rocks to enable us to get both speed and volume. At El Soldado, we are sorting in four tonne packages. You can adapt the sorting profile by the characteristics of the orebody. We’re generally looking to sort tonnages that are less than you would put in a haul truck body or bucket.

If you step right back, in the past, most processing plants wanted to blend to get an average feed. We are going the other way. We want to use the heterogeneity of the orebody to its advantage; the less mixing we can get ahead of these sorting processes, the better it is for recoveries.

Being able to remove an orebody above the cut-off grade alongside waste tonnages and upgrade the latter has led to an effective lift in head grade. It has been enabled by new sensing technology with a particular type of neutron sensor.

What we have seen in early results has surprised us on the upside. We thought we would see a 5% uplift in head grade, but in fact we have seen about 20% – to qualify that, it’s in its early stages.

O’Neill says the bulk sorting trial at El Soldado has seen about a 20% uplift in head grade in its early stages

If you take this to its logical conclusion, you can see the day coming where you would cut the rock – no drilling and blasting – immediately sort the rock behind the machine cutting it and distribute said rock efficiently into its value in use; you don’t have stockpiles, you have plants sensing the material right through and adapting in real time to the change in mineralogy. I think there is another 3-4% increase in recovery in that whole process when we get it right.

Our sweet spot when we created FutureSmart Mining was always the orebody and processing plants, more so than automation (although that is part of the potential mix). That was different to a lot of the other players in the industry. This focus could lead to the development of different types of plants; ones that are flexible, more modular and you can plug and play.

IM: Do you see these type of neutron sensors being applied elsewhere across a mine site?

TO: Yes, through processing plants and conveyors. In fact, we’re preparing for this on conveyors right now.

What we have found with all this new technology is that, when we implement it, quite often another opportunity arrives. They end up playing off each other, and that is the context for the bulk sorting and coarse particle flotation.

IM: How have Anglo’s Open Forums played into these developments?

TO: We have held eight Open Forums on sustainability, processing, mining, exploration (two), future of work, energy and maintenance.

Out of those eight, I think we have got around 10,000 ideas from them. These forums have been specifically designed where only about a third of participants are from the mining industry, with the other two thirds coming from the best and brightest analogous industries we can tap into – automobile, oil & gas, food, construction, even Formula 1 racing and NASA.

The reality is that out of those 10,000 ideas, the success rate is about 1:1,000, but the one that makes it is quite often a game changer.

IM: Going back to the bulk sorters, am I right in thinking you plan to put these into Mogalakwena and Barro Alto too?

TO: The aim is to have them across our business. At El Soldado, the copper angle is very important. The technology – the sensing and using the data – is probably a touch more advanced in copper, but we are building one currently in our PGMs business at Mogalakwena and a bit behind that, but ready to be built, is one in nickel, yes.

In terms of our programme, you will see them spread across our business in the next, hopefully, 18 months.

IM: Where does your approach to advanced process control (APC) fit into the FutureSmart Mining platform?

TO: We want to have APC in some form across all our business by the end of this year. We have probably come from a little behind some of the other players in the industry, but we’re pushing it quite aggressively to give us the platform for data analytics. The upside we have seen just by putting the process control in so far has surprised me a bit – in a good way; power reductions, throughput, having this different level of control. All of it has been pleasing.

We spent about 12 months looking at the whole data analytics space to see how we were going to implement our solution. If you look around at the sector, everyone wants to be involved and profit share. If you add it all up, you could end up with not a lot of profitable pieces at the end. We have strategically chosen the pieces we think are important to us and our profit pool and have been happy to be a little looser on some of the non-core areas.

The other key plank to the APC is that we own the data. The reality is, in the new world, data is like a new orebody and we’re not willing to let go of that.

IM: Your Smart Energy project involving a haul truck powered on hydrogen has certainly caught the attention of the market: how did you come up with this innovation?

TO: Initially, we couldn’t make renewables work from an investment criteria perspective – it was always close, but never quite there. Donovan’s team then took an approach where they said, ‘forget the normal investment criteria. All we want to do is, make the business case wash its face.’ In doing so, it enabled them to oversize a renewable or photovoltaic energy source – the power plant – using that extra power to produce hydrogen and putting that hydrogen to use in the haulage fleet. Re-engineering the haulage fleet gave us the business outcomes we were looking for.

DW: These business cases bring you to temporary barriers. When you hit that temporary barrier, people normally stop, but what we said was, ‘OK, just assume it is not there and go forward.’ That brought the whole business case back again by looking at it differently again.

Anglo’s Smart Energy project is aiming to power a 300-t class truck with hydrogen fuel

IM: Where is this project likely to be situated within the group?

TO: We’re still not 100% fixed as the initial work will be done here (the UK). You are talking about quite specialist skills working with hydrogen.

When the system has gone past its initial testing, it will go to a site, probably in South Africa, but we are not 100% locked into that at this point.

IM: On the 12-month timeline you have given, when would you have to be on site?

TO: The infrastructure will be pre-built here in the UK. We’re effectively testing it here. In a way, the physical truck is the easy bit.

It’s going to be using a 300-t class truck. The guys have already done quite a bit of the detailed measuring and the design elements are well under way.

We’ve also taken the approach to use pre-approved technology, which Donovan can talk about.

DW: This minimises the risk on the first go and allows us to, later, tailor it. For example, if you don’t have a right sized fuel cell currently available off-the-shelf, you just use multiple standard-size fuel cells for now. Then, when you get into the final version you could tailor them into something more specific.

IM: On mechanised cutting, you recently mentioned the building of a “production-sized machine” for at least one of your mines in South Africa. Is this a variant of the Epiroc machine – the Rapid Mine Development System – you have been using at Twickenham?

TO: It’s the next generation of machines. It’s fair to say that, in the last 12 months, the technology has come to the point where we are confident it is viable.

What we’re looking for is a fundamental breakthrough where, for example, we can take the development rates up three or four times from what you would usually expect. That is what we’re chasing. It would involve some sort of pre-conditioning of the rock ahead of the cutting, but the cutting, itself, works.

For us, mechanised cutting is a real solution to some of the safety issues we have had on our plate. Regardless of whether it goes into South Africa or another underground mine, we see it as a key part of our future underground design and operation.

IM: What type of rock pre-conditioning is this likely to be?

TO: I think around the world, people are looking at electricity, microwave, laser, a whole suite of things. None of them have yet quite landed, but they all have potential.

IM: Where does haul truck automation fit into the pipeline for Anglo American?

TO: All the equipment we buy, going forward, will be autonomous-capable, which means we can run it in either format (manned or unmanned). You are then left with a number of decisions – have you got the design to retrofit automation? Is there a safety issue to be considered? Is there a weather issue to contend with? There are a whole series of gates that we’ll take it (automation projects) through.

It’s good to go back to P101 here. Where P100 is getting all of our key processes to world-class benchmarks, P101 is about establishing a new benchmark. By definition, if you get your operations to that point, the gap between that manned performance and autonomous performance is not that great.

Autonomy is part of our future armoury, but when and where and how, we’ll have to wait and see. For example, we are currently looking at the option of autonomous haulage trucks at one of our open-cut mines in Queensland.

When you look at our portfolio of operations, it’s often a more complex environment than when you are just working in the wide open Pilbara.

Wood and Cementation Americas complete Terra Nova Technologies deal

Bulk handling, Comminution of minerals, Mineral processing, Mining equipment, Mining mergers and acquisitions, Mining services, Water management, , , , , , , , ,

Wood says it has completed the sale of conveyor systems business Terra Nova Technologies (TNT), close to six weeks after the deal was announced.

Following a strategic review of its portfolio, Wood identified potential asset disposals which were expected to generate proceeds in the range of $200-$300 million, with the TNT sale making a “good contribution to the asset disposal program”, it said.

The TNT business was sold to Cementation Americas, a firm owned by Murray & Roberts Holdings Ltd, for $38 million.

Back in late-March when the deal was announced, David Kemp, Wood Chief Financial Officer, said: “Terra Nova Technologies has a strong track record in delivering material handling equipment to our customers. Wood’s strategy going forward is to focus on asset-light solutions rather than the manufacture/fabrication of equipment.”

Cementation Americas said TNT has earned a solid reputation for providing quality design, supply and commissioning services for crushing and screening plants, overland conveyors, heap leach systems and mobile stacking systems for waste and dry tailings.

Justin Oleson, President of Cementation Americas, said at the time: “The purchase of TNT fits well within Cementation’s strategy to improve our ability to serve clients, both geographically and across the mining value chain. The combining of Cementation and TNT complements both our underground and surface design/build portfolios, and better positions Cementation to support our client’s total mining needs.”

Metso books comminution equipment order from Codelco at El Teniente

Base metals, Bulk handling, Comminution of minerals, Equipment maintenance, Mine operation news, Mineral processing, Mining equipment, Mining services, , , , , , , , , ,

Metso says it has been awarded a contract to supply crushing and material handling equipment for the first stage of Codelco’s El Teniente copper mine expansion project in central Chile.

The order was booked in Metso’s March quarter 2019 orders and will see the company deliver, among other elements, primary gyratory crushing equipment with apron feeders and conveyer belts as well as related services.

El Teniente is the world’s largest underground copper mine as well as the largest operation of the Chile state-owned copper mining company Codelco. The expansion project, called El Teniente New Mine Level, is expected to add 50 years to the life of the mine, with the first stage expected to start up in 2023.

Once completed, the full expansion will allow El Teniente to maintain its current output of around 450,000 t/y of refined copper, Metso said.

Victor Tapia, President, Mining Equipment Business Area at Metso, said: “We are proud of being part of this landmark project in which we will utilise our process and product knowledge gathered over 150 years of experience.

“In a landscape where challenges are continuously evolving, we are fully committed to keep developing solutions that help our customers to secure sustainable productivity and long-term success.”

Most of the equipment deliveries to El Teniente are scheduled for 2021, while services will be carried out between 2022 and 2023, according to Metso.

“Metso in Chile and Codelco have a long history of cooperation. This order confirms once again our expertise and our position as a leading equipment supplier for underground mining and as a key equipment a supplier for Codelco,” Tapia said.

“Going forward, we’ll focus on providing El Teniente with a high level of performance, reliability and best-in-class support service throughout the project life cycle,” he added.

BEUMER’s drone and 3D modelling combination speed up conveyor builds

Bulk handling, Coal technology, Mine operation news, Mining equipment, Mining events, Mining services, Mining software, , , , ,

BEUMER Group’s ability to combine high-resolution drone surveys with detailed 3D modelling is reducing the amount of time required to develop and install complex conveyor systems in the mining space, Andrea Prevedello, Global Sales Director CL Systems, told IM on the sidelines of the Bauma fair in Munich, Germany, on Tuesday.

BEUMER has been offering modelling solutions for many years, while it has been working with drones for about the past three years but combining the two for conveyor design is something new.

The first project to involve this combination is a 6.5 km conveyor installation at Knight Hawk Coal’s Prairie Eagle underground coal mine in Illinois, US.

The curved troughed belt conveyor carries coal from Knight Hawk’s new underground mine portal to its main coal preparation plant at Prairie Eagle. It allows Knight Hawk to seal a portion of its underground mine and bring coal to the surface near its current mining activities. Commissioning of the new conveying system was previously scheduled for this month.

BEUMER’s solution at the mine features a single-flight curved conveying system that eliminates the cost of tower steel, and greatly reduces the quantity of components and necessary spare parts, according to the company. It reduces the dust, noise, maintenance and operating costs associated with the transfer points, and offers 98% reliability compared with roughly 92% reliability of four conveyors operating in series, Beumer said.

In addition to this recent drone and modelling development, Prevedello said BEUMER is also now able to provide fully-erect shiploaders to customers. Instead of having to transport individual parts and erect on site, the company can now deliver a complete system that customers can slot in, he said.

For companies looking to replace an old shiploader with a new one, this is very important, Prevedello said, allowing companies to make a quick switch that minimises operational downtime.

Martin Engineering on handling uptime and potential hazards in conveyor belt operations

Bulk handling, Equipment maintenance, Mineral processing, Mining equipment, Mining maintenance, Mining services, , , , , ,

Martin Engineering is aware of the potential hazards and injuries that can come from a build up of material around or near conveyor belts and has issued some advice to mining companies to prevent such events occurring and to ensure bulk handling equipment works to its potential.

“As tonnes of material per hour are quickly dropped with great force through receiving chutes onto a receiving conveyor, fugitive cargo often piles up around the frame and dust migrates throughout the area, collecting on idlers, pulleys and floors and affecting air quality,” Martin Engineering said.

“Workers have to continuously clean up the material before it encapsulates the belt, potentially exposing them to a hazardous work area around a moving conveyor, where even incidental contact can result in serious injury in a split second. Considering that most conveyor injuries occur though routine maintenance or clean up, controlling fugitive material is becoming one of the primary elements in a well-organised effort to reduce hazards and prevent injuries.”

Jerad Heitzler, Product Specialist at Martin Engineering, said conveyor operators need only to take a broad look at the expense that fugitive material has on a system to realise the full cost that accompanies inefficient transfer point designs.

“Problems such as improper belt support, badly sealed chutes, damaged idlers and uneven cargo distribution can all result in spillage and belt mis-tracking,” he said. “They also contribute to increased costs for lost material, premature equipment failure, maintenance and clean-up, as well as the potential for injury and compliance issues. These factors raise the cost of operation and reduce profit margins.”

In a properly-engineered transfer point, each component, from the chute design to the cradles and dust seals, is employed to maximise its specific function and contain dust and fines, while at the same time offering workers easy access for maintenance, the company said.

Transfer points

Containment is the key to avoiding spillage and dust and there are several components designed for this purpose, according to Martin Engineering.

Although shaped transfer chutes and rock boxes direct the material flow to mitigate the concussion of material on the belt, most high-volume operations need one or more impact cradles to absorb the force of the cargo stream.

“Heavy duty impact cradles can be equipped with rubber or urethane impact bars with a top layer of slick UHMW plastic to minimise belt friction. Able to withstand impact forces as high as 17,000 lbf (53.4-75.6 kN) and drop heights of up to 50 ft (15.2 m), support beams in the centre of the cradle are set slightly below the receiving belt’s line of travel. In this way, the belt avoids sustained friction when running empty and yet can absorb hard impacts during loading, while still retaining a tight belt seal.

“Within the settling zone – located after the impact cradle in the conveyor chute box – slider cradles can then create a troughed belt to centre the cargo and reduce disruption quickly, aiding in dust settlement.”

Slider cradles, located down the length of the skirted area, have several functions, the company said. One is to create a trough angle that adequately centres the load. The trough angle also plays an important part in retaining a tight seal between the belt and the skirt. Lastly, using track mount idlers in between each cradle, a smooth belt path is created through the settling area, one that can be easily maintained.

“A smooth belt path should have no gaps, minimising disruption and promoting containment, allowing dust and fines to settle into the cargo stream prior to leaving the containment area,” the company said.

Airflow

With a constant stream of material crashing on the impact point of the receiving belt, the transfer point can be extremely turbulent, and this turbulence must be contained, Martin Engineering said.

By slowing the airflow in the skirted area, suspended dust can settle onto the cargo path. To contain the mixture of air and disrupted material, a stable, correctly-supported belt is needed for the sealing components to function properly, according to the company. Without a stable beltline, the belt will sag between idlers, and sealing components will not prevent air and fine material from escaping out of the resulting gaps, causing spillage and dust emissions.

Chute sealing

By closing gaps and keeping a tight seal on the belt, apron seals can also be attached to the chute walls to prevent fugitive dust and fines from escaping.

“A crucial requirement in any transfer point designed for reduced spillage and high efficiency is an effective skirting and wear liner sealing system at the edge of the belt,” Heitzler said. “Modern designs feature external skirting, which establish the tight belt seal needed to eliminate fugitive dust and fines.”

The external design requires minimal tools and no confined space entry to inspect, adjust or replace wear liners or skirts and, in most cases, can be performed by a single worker, Martin Engineering said. “The low profile of the skirting assembly needs only a few inches of clearance, allowing installation and maintenance in space-restricted areas. The design of these components drastically reduces scheduled downtime and the potential workplace hazards associated with replacement and adjustment.”

Dust filtration

In operations with limited space for a settling zone or especially dusty materials, dust bags and curtains may be “essential components”, the company said.

“Providing passive relief via positive air pressure created at belt conveyor loading zones, dust bags prevent the escape of airborne particulates by venting the air and collecting dust at the same time. Installed at the exit of the loading zone and mounted in the skirtboard cover, dust curtains can help create a plenum for dust suppression and dust collection.”

For additional dust control, an integrated air cleaner system can be installed at the point of emission, containing a suction blower, filtering elements and a filter cleaning system.

Conveyor uptime

The company concluded: “Managers concerned with the overall safety and cost of operation need to review potential hazards, the impact of rising labour costs for clean-up and maintenance, combined with the expense of potential fines or forced downtime, to determine specifically how they can affect the bottom line.

“Using the technologies described here, even poorly-performing conveyors often don’t need to be replaced or rebuilt, but merely modified and reconfigured by knowledgeable and experienced technicians installing modern equipment.”

Heitzler signed off: “These improvements will help operations improve efficiency, reduce risk and contribute to regulatory compliance.”

Wood to sell Terra Nova Technologies to Cementation Americas

Bulk handling, Mining equipment, Mining mergers and acquisitions, Mining services, , , , , , , , , , , , ,

Wood has agreed the sale of its Terra Nova Technologies business to Cementation Americas, a business owned by Murray & Roberts Holdings.

The sale of the conveying and material handling systems solutions business is expected to bring in cash proceeds of $38 million, Wood said, with closing expected in the June quarter.

David Kemp, Wood Chief Financial Officer, said: “Terra Nova Technologies has a strong track record in delivering material handling equipment to our customers. Wood’s strategy going forward is to focus on asset-light solutions rather than the manufacture/fabrication of equipment.

“The disposal makes a good contribution to our non-core asset disposal programme which is a key element of our deleveraging plan.”

Terra Nova Technologies has complete design/supply and engineering procurement and construction capabilities. Its systems are custom engineered for the mining and mineral processing, iron, coal, aggregate, phosphate and cement industries.

Its renowned mobile stacking systems, including the patented Super Portable® systems, are used worldwide for copper, gold and uranium heap leaching operations as well as dry tailings stacking.

In a later release, Cementation Americas said TNT has earned a solid reputation for providing quality design, supply and commissioning services for crushing and screening plants, overland conveyors, heap leach systems and mobile stacking systems for waste and dry tailings.

Justin Oleson, President of Cementation Americas, said: “The purchase of TNT fits well within Cementation’s strategy to improve our ability to serve clients, both geographically and across the mining value chain. The combining of Cementation and TNT complements both our underground and surface design/build portfolios, and better positions Cementation to support our client’s total mining needs.”

Regarding the acquisition, Ron Kelly, President of TNT, said: “The combination of TNT and Cementation is an excellent fit strategically. We share several key customers, and together, we can provide these customers with enhanced value through a single source for products and services. There is also significant potential for TNT and Cementation to grow, expanding into new common markets.”

ABB looks to improve mining efficiency with ABB Ability™ MineOptimize

Automation, Bulk handling, Comminution of minerals, Communications in mining, Equipment maintenance, IoT, Mineral processing, Mining equipment, Mining maintenance, Mining services, Mining software, Power supply for mines, Sustainable mining, , , , , , , , ,

ABB has launched its ABB Ability™ MineOptimize suite of digitally connected products, services and solutions to, the company says, “realise the world’s most efficient mines”.

“With digitalisation at its heart, ABB Ability MineOptimize connects all electrification, automation and digital offerings to optimise all stages in the lifecycle – from design and build to operation and service – of any open pit or underground mine and minerals processing plant,” ABB said.

MineOptimize is a portfolio of optimised electrification, drives and automation solutions, optimised engineering, digital applications and collaborative services, according to ABB. “It combines in-depth sector knowledge, leading edge technology and global and local project management, engineering and digital transformation expertise developed by ABB over 60 years of working with the mining and minerals industry at every stage of the mining cycle,” the company said.

The products, services and solutions within the solution include state-of-the-art digital technologies for remote services, predictive maintenance tools as well as solutions for upgrades and retrofits, according to ABB.

The company said: “Advanced application libraries, software solutions and digital platforms reduce process complexity, promote safe and secure production and lower lifetime operating costs. By ensuring that the right people have the right information at the right time and from anywhere, ABB Ability MineOptimize digital applications enable mine operators to maximise reliability, safety, productivity and energy efficiency while optimising planning and visibility across operations and the entire enterprise.”

Martin Knabenhans, Head of Product Management for ABB’s Process Industries business unit, said: “Optimisation of mining and mineral processing operations in order to improve productivity, reduce downtime and protect workforce and the environment is essential and an important factor in being competitive in the market.

“The ABB Ability MineOptimize portfolio offers open, digitally connected mining applications for unmatched operation, maintenance, process and production performance. As digital transformation partner ABB Ability MineOptimize enables IT/OT integration for some of the world’s most cost effective mines.”

ABB will roll out new electrification solutions, digital applications and collaborative services in the MineOptimize portfolio throughout the year, it said, to:

  • Enable sustainable mining by powering the all-electric mine;
  • Re-invent mining automation with the next generation of ABB Ability™ System 800xA for Process and Power Control, and;
  • Improve availability through enhanced collaborative services with new predictive cloud based analytics for grinding, hoists and conveyors.

The new MineOptimize digital applications complement electrification and automation solutions and dedicated mining systems for hoists, gearless or ring geared mill drives and material handling which can be applied in the building or revamping of a mine, ABB said. They will also sit alongside collaborative remote assistance, availability, performance and quality services.

Drum motors for extreme operating environments come under the SME spotlight

Bulk handling, Equipment maintenance, Mining consumables, Mining equipment, Mining events, Mining services, , , , ,

Alexander Kanaris, President of Van der Graaf, will put forward the benefits of using the company’s GrizzlyDrive™ drum motor with IronGrip lagging in extreme environments at the SME Annual Conference and Expo on Monday.

In an abstract ahead of the conference, Kanaris said: “Conveyors powered by external motors and gearboxes, along with v-belts, chains, couplings and pillow block bearings, often operate with relatively low efficiency and require regular maintenance.

“With rising electrical and labour costs, mining and aggregate industries are forced to evaluate ways to minimise downtime, reduce maintenance costs, increase worker safety and ultimately increase profits.”

According to Kanaris, new drum motor technology has addressed efficiency and operator safety concerns. An internally driven conveyor drive, the drum motor “eliminates external components, houses the electric motor and gearbox inside the drum, increases operator safety, saving space, eliminates scheduled maintenance, increases longevity and overall efficiency”, Kanaris said.

“With v-belts, chains and couplings no longer required, the internal drive design drum motor, has efficiency gains of up to 30% and lower operating costs,” he said.

“Reliability and longevity of conveyor drives pose challenges for belt conveyors to operate in harsh and abrasive environments and failure is ground zero for loss of production. The latest Van der Graaf GrizzlyDrive drum motor with IronGrip lagging is developed specifically to operate in these extreme environments.”

The GrizzlyDrive is available from 3-50 horsepower and 8.5″ to 42″ diameter, with thepatented IronGrip high performance lagging design engineered for harsh and vibratory applications, according to Van der Graaf.

Voith expands TurboBelt TPXL conveyor coupling range

Bulk handling, Equipment maintenance, Mining equipment, Mining maintenance, Mining services, , , ,

Voith says it has expanded its TurboBelt TPXL range of fill-controlled couplings for conveyors, with the addition of 500 kW, 800 kW and 1,250 kW versions.

These couplings combine hydrodynamics with intelligent control technology to optimise performance, according to Voith.

The integrated controller matches the output torque exactly to the start-up parameters of the belt conveyor system, thus reducing wear and increasing service life, according to Voith. Its high power density means the TurboBelt TPXL range requires only half the volume of conventional couplings and therefore can be easily integrated into drivetrains, the company said.

Voith said: “With its proven hydrodynamic drive principle, the Voith TurboBelt TPXL range of couplings has been a staple of the mining industry for years. Delivering a nominal torque from 1,600 Nm to 7,960 Nm, respectively, the new sizes – TurboBelt 800 TPXL and TurboBelt 1250 TPXL – open up an expanded range of applications. Its rugged construction makes it ideal for use in demanding environments and tasks, such as open-pit mining.”

The TurboBelt TPXL’s plug-and-play design allows for easy integration into established systems and drivetrains and serves to significantly shorten commissioning times, according to Voith. The coupling concept consists of an integrated controller, an integrated oil pump and an oil supply unit, all of which are designed to work in tandem with each other.

“This lays the groundwork for accurate predictive maintenance to effectively keep the total cost of ownership low,” Voith said. “The TurboBelt TPXL’s hydrodynamic operating principle enables wear-free power transmission without the need for a mechanical connection. In this way, the system’s lifespan is expanded and maintenance costs are decreased significantly.”

TurboBelt DriveControl, Voith’s digital control system, was designed to work in conjunction with the TurboBelt TPXL’s integrated controller to meet even the most demanding requirements in belt conveyance, Voith said. “It allows seamless connection of drives, belt conveyors and components throughout the entire extraction process.”

In this way, TurboBelt DriveControl can handle lengths of up to 20 km as well as vertical curves and tonnages of more than 12,000 t/h, according to the company.

Votih said: “The intelligent system features autonomous belt conveyor startup and stopping procedure, even for regenerative conveyors. In addition, it extends the belt’s service life by reducing mechanical stress and dynamic impact.

“To maintain reliable conveyor performance at all times, TurboBelt DriveControl also features active load sharing, one-drive off and hot stand-by declutching function.”

The system logs all operational data, according to Voith, allowing the coupling to adjust its control behaviour in accordance with previous empirical values to accommodate a specific load situation, for example.

“Based on the required torque for the belt and the basic start-up parameters, the coupling automatically calculates the optimum fill level and fills or drains the working circuit accordingly. The stored information can be utilised for self-diagnosis and remote maintenance. In addition, the controller monitors the coupling’s entire sensor system to ensure flawless operation at all times,” Voith said.