Tag Archives: mineral processing

Metso Outotec ticks the TCO box with latest HRC HPGR design

Comminution of minerals, Mineral processing, Mining equipment, Mining maintenance, Mining services, Sustainable mining, Water management, , , , , , , , ,

The design and operating principle of Metso Outotec’s HRC high pressure grinding roll has been well proven since going commercial in 2014.

The elimination of the edge effect with a flange design brings with it high throughput, while the anti-skew assembly means customers find faster machine restarts and no downtime from skewing events.

These benefits have been proven at Freeport McMoRan’s Morenci mine, in Arizona, USA, with the company’s largest unit – a HRC 3000 – having now processed more than 120 Mt of ore at that operation. This HRC 3000 is still going strong.

Yet, there was room for improvement, hence the reason Metso Outotec has just released the HRC™e HPGR.

Christoph Hoetzel, Head of Grinding business line at Metso Outotec, explained the rationale for such an update.

“To enable this flange technology, it was very important to have a simple, mechanical solution that works under any circumstances,” he told IM. “Our solution with the HRC was the arch frame, which was a mechanical fix to keep the rolls parallel at all times.

“This, however, came with a compromise. You had to have access to both sides of the machine and, in general, the units were relatively heavy and tall.”

These attributes meant that, if the customer investigated the total installed cost of the HRC – especially if they were weighing the purchase of more than one unit – the cost sometimes outweighed the benefits.

“This was a case of where the economics did not match the sustainability and efficiency of the unit,” Hoetzel said.

Metso Outotec has listened to customer feedback with the HRCe.

“The enabling factor for the flange technology is a mechanical solution for eliminating skewing on the machine,” Hoetzel said. “We have now achieved this with a much simpler, compact design. This is really where the step change has come from.”

Now, when you look at the specifications of the HRCe, which comes with a large feed size acceptance of 60-120 mm and typical capacities of 1,810-6,930 t/h, the footprint is almost the same as other HPGRs on the market, according to Hoetzel.

“Yet, the unit benefits from the proven and reliable flange design of the original HRC,” he said. “You could, potentially, even use a smaller unit for the same application.”

By reducing the size and associated installation cost that comes with the HRC technology, Metso Outotec is suddenly levelling the HPGR playing field. The advantages the company spelt out back in 2014 when the HRC technology was originally publicised now come with no cost drawbacks.

With more miners looking for not only energy-efficient grinding solutions in their flowsheets, but processing options that reduce their water intake, HPGRs are increasingly being used in tertiary or quaternary crush applications, or in lieu of traditional SAG mills.

In this regard, an updated HPGR is coming to the market at just the right time.

Metso Outotec, cognisant of this trend, has also sought to offer the benefits of its HPGR technology to the wider market.

The mechanical skew control HPGR (High Pressure Grinding Roll) retrofit kit takes the key components responsible for minimising skew from the HRC and makes the technology more accessible without the major investment or need to acquire a new machine, according to the company. The technology can also be incorporated into non-Metso Outotec machines.

These latest product updates are in keeping with Metso Outotec’s defined purpose of “enabling sustainable modern life”, fitting the mineral processing reality that miners face today.

Hoetzel reinforced this message: “Customers should not have to choose between sustainability and lowest total cost of ownership with their machines. At Metso Outotec, we truly want to be the partner for positive change, which means we really need to combine both.

“With the HRCe, we think we have achieved that.”

Metso Outotec to sell recycling business as it focuses on ‘core’ synergies

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Metso Outotec has spelt out a three-pillar focus in a new strategy and financial targets update, saying it is looking to divest its Recycling business and concentrate its attention on the aggregates, minerals processing and metals refining industries.

The new strategy, focused on growth and improving profitability, was published on the same day as the company’s January-September 2020 interim review was released.

This showed orders received were 28% lower in the September quarter of 2020 than the same period a year ago, at €2.9 billion ($3.4 billion), while the company’s adjusted EBITA and operating profit were down 29% and 63% year-on-year at €109 million and €47 million, respectively. President and CEO, Pekka Vauramo, said the COVID-19 pandemic continued to have an impact on the company’s end markets during the quarter, with the most significant impacts resulting from limited access to customer sites and slow decision making related to new project and modernisation orders and non-critical services.

With the merger of Metso and Outotec having completed on June 30, Metso Outotec has now had the chance to evaluate the opportunities within the enlarged group, which it spelt out in this update.

The company said it aims to become a “top-tier supplier of products, technologies and services in the aggregates and minerals industries and a top financial performer”, adding that its defined purpose is: “enabling sustainable modern life”.

Against this remit, the company said its foundation for implementing its new strategy and achieving its goals are based on the following factors:

  • Comprehensive product and service offering as well as process expertise throughout the customers’ value chain;
  • Extensive installed base and a strong brand;
  • Strong aftermarket presence and know-how close to customers; and
  • Industry-leading, sustainability-focused technology, research and product development expertise.

When it comes to growth, the company said its key customer segments are aggregates, minerals processing, and certain areas of metals refining.

“The company’s target markets offer attractive growth prospects and have significant potential for further growth and development of the aftermarket business,” it said. “Several recognised global megatrends, like urbanisation, infrastructure projects, electrification of societies, and climate change mitigation, will support market growth.”

Metso Outotec’s primary target in the selected segments is to develop its product and service business by leveraging its process expertise. “In order to reduce business risks and to improve profitability, extensive project deliveries will be limited when they include other than the company’s own technology and expertise,” it said.

The company laid out four priority areas of strategy implementation including: integration and financial performance; customer centricity; sustainability; and performance culture.

These priority areas are visible in each business area’s action plans and their realisation is measured and managed with several performance indicators, it added.

Vauramo, who has also agreed to lead the company until the end of 2023, said: “Metso Outotec’s new strategy is coherent and clear, and it will help us to become an industry-leading company in customer satisfaction, sustainability and financial performance. Based on a careful assessment of our businesses and the opportunities they offer, we have selected the areas we will focus on.

“The aggregates and minerals industries have clear roles at the core of our strategy. Global megatrends are driving their development, and we are well positioned to offer products, solutions and services that satisfy customer demands.

“In the Metals business, we will initiate a restructuring and turnaround program to improve financial performance and ensure more granular management of the various businesses and resources. This work will lead us to scope our offering and resources in a more efficient way.”

As a result of this strategy work, Metso Outotec has decided to divest its recycling business. While the circular economy and other market drivers offer attractive opportunities for developing this business, Vauramo said it has limited synergies with the core of the new Metso Outotec.

“This being the case, we have started preparations to divest the business,” he said. “I am confident that we will reach a solution that is good for Metso Outotec as well as for the Recycling business and its personnel.”

The Recycling business sells products and services for metal and waste recycling. Its sales in 2019 were €156 million, and it reported an adjusted EBITA margin of around 6%.

Speaking of synergies, Vauramo updated investors on its plan to generate total cost synergies of €120 million by the end of 2021 through the merger process.

At the end of the September quarter, it had reached an annual run rate of €31 million in cost synergies, it said. This compares with the year-end estimate of €50 million.

“In addition, we were able to realise the first revenue synergies during the quarter by capitalising on cross-selling opportunities in the services business,” Vauramo said.

As part of the strategy work, Metso Outotec’s Board of Directors has approved the following financial targets:

  • Adjusted EBITA margin of >15% over the cycle;
  • Maintaining an ‘investment-grade’ credit rating;
  • Dividend payout of at least 50% of earnings per share; and
  • Progress in sustainability in alignment with the 1.5°C commitment.

“The financial targets underline our intention to improve the company’s profitability and drive sustainable solutions in our industry,” Vauramo said. “The most significant factors in this development are the benefits related to integration and synergies, the businesses’ own profitability improvement actions, increasing market shares, and developing our business portfolio. At the same time, we will strengthen the company’s balance sheet by using cash from operations to reduce indebtedness.

“For shareholders, Metso Outotec’s ambition is to be a good payer of dividends.”

With Metso Outotec already outlining its “1.5°C journey”, with targets validated by the Science Based Targets initiative, the company is well on its way to making progress on this front.

In the strategy update, the company said this will be implemented through a focus on sustainable offerings and innovations, and by being a responsible and trusted partner.

Metso Outotec has set targets to reduce the emissions of its own operations by 50% by 2030, compared with the 2019 baseline, and to reduce the emissions of logistics by 20% by 2025. It is also targeting that 30% of the supplier spend by the end of 2025 is with partners who have set a CO2 target.

“Metso Outotec will continuously develop sustainable solutions for its customers, with a focus on energy and emission efficiency, water efficiency, circular solutions and safety,” it said. “Over 90% of the company’s R&D projects are targeted to have energy, emissions or water targets.”

TOMRA connects ore sorters to the cloud with TOMRA Insight

Communications in mining, IoT, Mineral processing, Mining equipment, Mining services, Mining software, , , , , , , , , ,

After a successful launch in its recycling division, TOMRA is rolling out its cloud-based data platform, TOMRA Insight, to mining customers.

TOMRA Insight enables sorting machine users to improve operational efficiencies through a subscription-based service that turns these machines into connected devices for the generation of valuable process data.

Following a successful launch last year by TOMRA Sorting Recycling, TOMRA is now also being made available to customers of TOMRA Mining and TOMRA Food. For all three industries, the platform is enhanced by new features and functionalities that make TOMRA Insight even more valuable than when it was launched to recyclers in March 2019.

The data from TOMRA Insight is gathered in near real time, stored securely in the cloud, and can be accessed from anywhere and across plants via a web portal available for desktop and mobile devices, according to the company.

Felix Flemming, Vice President and Head of Digital at TOMRA Sorting, said: “By capturing and using valuable data, TOMRA Insight is transforming sorting from an operational process into a strategic management tool. This tool is constantly becoming more powerful as we continuously develop it in response to customers’ needs and priorities. New functionalities and features are released every three weeks – a routine during which TOMRA works closely with customers in pursuit of shared objectives.”

Data captured by TOMRA Insight provides valuable performance metrics that help businesses optimise machine performance.

Operating costs are reduced by simplifying spare part ordering and offering flexible access to data and documentation, according to the company. Downtime is reduced by monitoring machine health and performance in near real time, identifying gaps in production and analysing potential root causes. This allows management to move to predictive and condition-based maintenance, preventing unscheduled machine shutdowns.

Throughput, meanwhile, is maximised by evaluating variations and optimising sorting equipment, accordingly. Sorting to target quality is enhanced by having accurate material composition data to enable decisions to be based on more detailed information.

For the mining and mineral processing industries, TOMRA Insight’s ability to collect detailed data from TOMRA’s sorting machines means that previously hidden information can lead to improvements in efficiencies and profitability.

Data captured by TOMRA Insight is analysed on behalf of customers by TOMRA Mining engineers, and key findings shared in confidential reports supplied to customers on a monthly basis. This arrangement has the advantage of combining objective statistical analysis with the interpretive skills of a service team familiar with the customer’s unique challenges, TOMRA says.

“TOMRA Insight’s data-gathering helps mineral processors in near real time and in retrospect,” the company said. “Machine operators are empowered to take prompt action in response to changes in material composition on the line and managers are empowered to make operational and business decisions based on more complete information.”

Comparisons between multiple sites or lines can now be made more accurately and difficult-to-reach processing operations can be remotely monitored from more convenient locations, the company said. This functionality is especially useful in the face of widespread travel restrictions related to COVID-19.

One early, pre-launch user of TOMRA Insight is the Black chrome mine in South Africa (pictured above), one of two mining projects that form the basis of the Sail Group’s plans for long-term sustainable chrome production. Since TOMRA Insight was connected to sorting machines here at the start of 2020, the data platform has convincingly proven its effectiveness, TOMRA said. Among the gains made so far are improvements in process monitoring and streamlining, more efficient line-feeding and machine running times, and reduced downtime.

Albert du Preez, Senior Vice President and Head of TOMRA Mining, said: “By accessing information, TOMRA Insight is unlocking new opportunities. Mineral processors can now move from making decisions based on experience and local observations to decisions based on experience and hard facts. This means TOMRA Insight can help reduce waste rock and downstream processing costs, enabling processors to earn more dollars per tonne.”

To build on these benefits, TOMRA Mining is working closely with customers to continuously develop TOMRA Insight. The future will bring the addition of more features and functionalities, which customers will automatically receive as part of their Service Level Agreement.

FLSmidth’s digital R&D bearing fruit at the right time

Automation, Comminution of minerals, Communications in mining, Equipment maintenance, IoT, Mineral processing, Mining equipment, Mining services, Mining software, , , , , , , , , , ,

As miners look for more digital solutions to ensure they can cope with the challenges that come with operating through exceptional circumstances like COVID-19, FLSmidth is leveraging decades of research and development to help them make this transition.

Terence Osborn, FLSmidth’s Director of Product and Account Management for sub-Saharan Africa and the Middle East, highlights that R&D is the lifeblood of the company’s new technologies. So much so, that it has some 80 projects underway to improve its mining-related offerings.

“The power of digital technology is certainly a key element of these efforts,” Osborn says. “Together with our Blue Box digital concept, based on our ECS/ControlCenter™, which is a cybersecure interface between our equipment and cloud data storage, we use our SiteConnect™ mobile app to monitor the performance of equipment and process plants in real time. The ECS/ControlCenter V8 process control platform sits at the heart of our digital vision, a key component in our growing portfolio of digital solutions and services that we call ENABLR.”

An example of this applied capability is an FLSmidth REFLUX® Classifier modular plant operating on a South Africa mine. Using SiteConnect, operations managers can have real-time access to over a hundred operational parameters on the plant. Data analytics linked to the cloud data can also generate time-based trends for instant viewing on the app.

“We have also developed SmartCyclone™ technology for our hydrocyclones,” Osborn noted. “This innovation uses sensors to detect wear and roping, a condition that reduces separation efficiency. By sending an alert when certain operating parameters are breached, the system ensures optimal efficiency is maintained, even as slurry conditions in the circuit vary.”

He highlights that the company’s machine-level solutions are offered as part of plant and process packages. At both plant and process level, there is also FLSmidth’s advanced ECS/ProcessExpert® solutions, which facilitate not just monitoring and control, but advanced optimisation enabled by state-of-the-art artificial intelligence technologies.

“It is important to remember that control systems need to be flexible, so that they adapt to customers’ needs and to their existing systems,” Osborn says. “With FLSmidth’s depth of expertise in software engineering and machine control, we can ensure that our machine-level systems connect with all market leading control systems – to seamlessly deliver the data that mines need for effective decision making.”

The company’s R&D pushes the boundaries of performance in a range of mineral processing fields. These include advancing its lamella plate technology in mineral separation applications, adapting its vertical roller mill for dry grinding in mining, and extending wear life of pumps with new polymers.

Weba improves mining chute installation accuracy with 3D scanning

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Transfer point specialist Weba Chute Systems & Solutions is leveraging three-dimensional (3D) scanning technology to ensure there are no surprises when designing and installing its products.

“The accuracy of 3D scanning means that we can rapidly gather detailed measurements of large infrastructure on a customer’s site,” Alwin Nienaber, the company’s Technical Director, says. “This data allows us to generate highly accurate 3D models of on-site conditions, which refines the accuracy of the equipment and componentry we develop and install in that environment.”

Greater accuracy keeps rework costs in design and manufacturing to a minimum and reduces any downtime during the installation phase, according to the company. Detailed 3D scan data allows all elements of the existing infrastructure to be considered during the preliminary design stage, so the customer is assured of a reliable costing in a project’s early feasibility stages.

Nienaber highlights that there may be numerous deformations or undocumented alterations in the customer’s existing infrastructure that could complicate the design and execution of a project. Manual measurement of dimensions may also not deliver the levels of accuracy required.

“Especially when we are replacing transfer points or chutes, we can significantly de-risk the process with our capacity to reverse-engineer the solution within the existing constraints,” he says. “The scanned data is superimposed on our design intent, alerting us to interference that will disrupt smooth installation.”

One of the key advantages of 3D scanning, therefore, is it contributes to the level of certainty that Weba Chute Systems & Solutions can achieve in the design and implementation of projects. The precision and portability of modern laser scanners have made them invaluable in designing, building and extending technical facilities, the company says.

“Our decades of experience in the mining environment give us the capacity to fully leverage the value of 3D scanning to the benefit of our customers,” Nienaber says. “This means accurate costing and seamless project roll-out – on time and on budget.”

This is increasingly important as mines drive for productivity gains and prioritise uptime, with many retrofit or maintenance projects required to be conducted during the strict shutdown periods on mines.

“Our engineering know-how is central to integrating 3D scanning into our design and manufacturing processes, improving our planning and scheduling through more precise data,” Nienaber says. “We translate this capacity into reduced project risk and lower contingency costs – allowing us to work efficiently at a low margin of error even under the time constraints in these projects.”

Metso Outotec Vertimill energy efficient tech heading to Australia gold mine

Comminution of minerals, Mineral processing, Mining equipment, Precious metals, Sustainable mining, , , , , , , , ,

Metso Outotec has won an order to deliver two energy-efficient Vertimill® VTM-4500 stirred mills to a gold mine in Australia.

These vertical grinding mills will be the largest of their kind to be installed in Australia when the delivery occurs in 2021, the company says.

The typical value for this type of an order is in the range of €10-15 million ($11.7-17.5 million), depending on the scope of delivery. The order has been booked in Metso Outotec’s orders received in the September quarter of 2020.

Metso Outotec’s Vertimill provides the lowest total cost of ownership compared with other grinding mills in many applications thanks to its high energy efficiency, reduced media consumption, low installation cost as well as minimal liner wear and maintenance, the company says. It is capable of handling feed sizes up to 6 mm and grinding to products less than 20 microns. It is available in standard mill sizes ranging from 11 kW to 3,353 kW.

Metso Outotec says it is the only manufacturer worldwide than can offer multiple stirred mill technologies (Vertimill®, HIG™mill and SMD) to support their customers with the most suitable and efficient mill for their application.

SMS group assigned to FEED work at Cinovec lithium project

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European Metals Holdings (EMH) has appointed SMS group Process Technologies as the lead engineer for minerals processing and lithium battery-grade chemicals production at the Cinovec project in the Czech Republic.

Cinovec, a joint venture between European Metals (49%) and ČEZ Group (51%, through its subsidiary Severočeské doly), is operated by Geomet. The project has recently received investment of around €29 million ($34 million) of funding from EIT InnoEnergy, the principal facilitator and organiser of the European Battery Alliance, for the project, seeing it through to a construction decision.

Under the agreement, SMS group, a leader in plant construction and mechanical engineering for the technology metals and materials sector, will provide a complete front-end engineering design (FEED) study as the major component of the ongoing definitive feasibility study (DFS) work at Cinovec.

Under the agreement, SMS will provide the following to the Cinovec project:

  • Full process integration from the point of delivery of ore to the underground crusher through to the delivery of finished battery-grade lithium chemicals for battery and cathode manufacturers;
  • The FEED will include all of the process steps – comminution, beneficiation, roasting, leaching and purification;
  • The FEED will encompass both the lithium process flowsheet and the tin/tungsten recovery circuit delivering metal concentrates to refineries; and
  • The FEED is intended to deliver a binding fixed price lump sum turnkey engineering procurement and construction (EPC) contract with associated process guarantee and product specification guarantees for battery-grade lithium chemicals. The combination of these will greatly assist to underwrite project financing from leading European and global financial institutions lending into this new energy electric vehicle-led industrial revolution, European Metals Holdings says.

The FEED study will commence immediately and SMS group is expected to deliver the EPC contract, as the final component part of the Cinovec DFS, by the end of 2021.

Herbert Weissenbaeck, Senior Vice President for Strategic Project Development at SMS group, said: “Having successfully completed thorough technical due diligence, we believe in the compelling value proposition of Geomet’s Cinovec lithium/tin/tungsten project, which is set to become a cornerstone of the e-mobility driven European battery metals landscape. SMS group is delighted to deploy its second-to-none technology metals and materials production know-how and EPC capabilities into this exciting project.”

EMH Executive Chairman, Keith Coughlan, added: “SMS is the ideal engineering partner for the Cinovec project as it is based in neighbouring Germany with a globally-respected process design capability. The appointment of SMS is the culmination of a negotiation and due diligence process that has lasted over a year.

“EMH, Geomet and ČEZ have all been consistently impressed by SMS group’s capabilities and insights into the development of efficient high recovery plants capable of producing very high quality end-products. Successful delivery of the FEED study will provide a gateway to financing institutions and offtakers of the highest quality. We believe that the intended product and process guarantees will greatly enhance the project finance either directly through commercial lenders or through the recently announced collaborative agreement with EIT InnoEnergy.”

A 2019 prefeasibility study on Cinovec outlined a 1.68 Mt/y operation producing 25,267 t of battery-grade lithium hydroxide over a mine life of 21 years. This came with a capital cost of $482.6 million.

Kwatani collaborating with EPCMs, miners on bespoke screening options

Bulk handling, Comminution of minerals, Equipment maintenance, IoT, Mineral processing, Mining equipment, Mining services, Mining software, Sustainable mining, Water management, , , , , , , , ,

Mineral process plant designs are favouring higher-capacity vibrating screens and a more holistic approach to plant optimisation, according to screen specialist Kwatani.

“These trends hold great potential for the mining sector, and Kwatani has been at the forefront of technologies driving this direction,” Annelize van der Walt, Kwatani’s Business Development Manager for Mining and Minerals, says.

Vibrating screens are essentially the “glue” that integrates various unit processes, from bulk materials handling to optimally liberated comminution and pre-concentration, according to the company.

“Larger, engineered-for-tonnage screens are growing in popularity, as they reduce the number of processing modules and hence the level of infrastructure required, especially on mega-projects,” van der Walt says. “Higher capacity is becoming the new design standard for greenfields projects.”

There is also an ever-greater demand for reliability and uptime in these mission-critical machines, as well as an expectation of longer lifespans. All this requires bespoke solutions that address site-specific conditions, van der Walt says, while leveraging digital technology for real-time monitoring and control.

“Kwatani’s metallurgists and engineers use their extensive on-site experience and in-house laboratory facilities to innovate from our proven technologies,” she says. “A cornerstone of our philosophy is close collaboration with engineering, procurement and construction management contractors and end-customers to customise solutions, from concept to construction, commissioning and operation.”

Annelize van der Walt, Kwatani’s Business Development Manager for Mining and Minerals

Specific conditions include waterless beneficiation in arid Mauritania, where Kwatani’s screens operate completely dry in an iron ore plant. In South Africa and Botswana, meanwhile, the company has retrofitted dewatering screens to reduce water consumption, while increasing output by 40% with the same footprint.

“We also recently designed screens for exceptional ore characteristics in a precious metal beneficiation facility in Canada,” she said. “This required a high level of customisation, not only in the screening media but in the mechanical design.”

Remote mine locations – which are difficult to access for maintenance and replacement purposes – also guide the design parameters. In a recent project, Kwatani innovated by selecting special hard-wearing materials for the construction of the screening equipment. The design included components that would provide early warning of wear.

Embracing a more holistic plant design approach, customers often invite Kwatani to participate in optimising the screening side of their chosen beneficiation technology, van der Walt says. A different screening approach would be taken, for instance, in a dry pre-concentration application than in wet dense medium separation.

“This holistic approach is also facilitating greater synergy between original equipment manufacturers,” she says. “This is a very positive trend, allowing us to consider the impact of different equipment on the performance of each – from mineral processing apparatus to transfer chutes.”

Underpinning Kwatani’s responsiveness to customer’s specific needs is its ongoing research and development.

“Our R&D unit is currently working on projects to suit our designs to novel crushing and grinding technologies, which are changing the whole approach to the process flow of future plants,” van der Walt says. “These are significant innovations for the mining sector, and we are excited to be at the forefront with our evolving screen designs.”

Kwatani is incorporating digital technologies to facilitate remote monitoring and control of its vibrating screens. It is also piloting a service app for mobile phones, which helps operations predict their maintenance needs more accurately. The app also helps to drive down the total cost of ownership by gathering data that can be used in future design improvements.

DataCloud bridging the mining industry’s data divide

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DataCloud is looking to collect and merge the mining industry’s datasets through a cleaning, processing, integration, and predictive analytics platform that can help different stages of an operation prepare and plan for the ore and waste heading their way.

While the coarse ore stockpile may be the section of the flowsheet currently in DataCloud’s crosshairs – thanks to a well-attended webinar a few months back – any part of the mining process that is “between departments” could benefit from the MinePortal solution, according to Steven Putt, Director of Software Solutions for the company.

“The value case is inherent anywhere between departments – ie the stockpile is after crushing, but before the mill,” he told IM.

“The reason that stockpile is there – it tends to only be half a day or a day’s material – is it is a buffer for the mill,” Putt said. “Within this pile, one truck might have been hauling very hard material that the mill is exclusively treating for a week or so. Then, in accordance with the mine plan, this can switch to another truck and a new area of the mine, meaning the mill is going to have to adapt to a completely different material.”

The distinction between material in the coarse ore stockpile is often not this apparent; it tends to represent the mine site’s ‘melting pot’, taking in material from all over the operation.

Yet, to operate effectively, the mill needs to know the origins of the material coming its way ahead of time. The mill would then, ideally, be re-configured to treat the material.

“The mill operator would need to change the speeds of operation, the water balance, potentially the grinding media, etc,” Putt said. “Operators would typically prefer not to make those changes though, having the mill running at some ‘optimal’ speed based on the idea that the material is relatively consistent.”

The reality of the situation is different, as DataCloud and its MinePortal platform have been proving.

“The last client we worked with could end up saving around $20 million a year by carrying out our recommended processes as part of a wider mine to mill tracking solution,” Putt said of a copper-gold operation the company worked at. “Basically a specific rock type (skarn) was being fed into the mix too often and the mill was not prepared to handle this in the blend.”

This client turned out to be spending more money than necessary on its blasting process – using too much energy blasting the material to create a ‘uniform’ blend. But, in upping the amount of explosive used, it created sub-optimal crusher feed.

This saw the primary crusher assigned to treat material around 5 in (127 mm) in size attempting to ‘crush’ material that was averaging around 1 in in size, according to Putt.

The primary crushing process was ineffective to say the least.

By adapting the blasting process to target the designed-for primary crush size, reorienting the mine plan so not as much skarn material was being fed into the coarse ore stockpile at once, and adding steel ball media to the mill to deal with skarn that was fed into it, the headline savings were made, according to Putt.

Such savings come with quite a bit of due diligence work, he explains.

“It is not just about connecting disparate datasets; a tremendous amount of work goes into cleaning and contextualising the data – knowing which information is right for the project at hand and which data is not applicable,” Putt said of the MinePortal data gathering and analysis procedure.

Where other data-focused companies can clean datasets and put them into algorithms to form various predictions, DataCloud’s mining knowledge and deep collaboration with customers enables the company to create fit-for-purpose solutions that work in a practical sense on the mine site.

This process sees at least six months of relevant data required up front. Then, a four-week deep dive of this data is needed to find out if the existing dataset can solve production bottleneck issues. The US-based company normally then allocates another three months to kick off the solution, on-board all teams and see improvements come through, according to Putt.

“I wouldn’t say it is a complete customisation, but there does tend to be differences in place at every mine site we visit that means the MinePortal solutions are somewhat unique,” Putt said.

Coming back to the coarse ore stockpile example, Putt recommends hard-rock miners add another filter to their existing blending process to help improve results.

“It is about adding a mill risk factor to an existing grade control program; getting the engineers to plan the mining regime in a certain way to effectively prepare the mill for the material being fed into the coarse ore stockpile,” he said.

Miners can do this by obtaining a good idea of the time window in which the material delivered to the stockpile is entering the mill, enabling engineers to trace it back into the pit and analyse the properties that were observed – and captured – during the drill and blast process.

“This can be a tricky thing to do as the size of the stockpile is changing so often,” Putt says.

Some miners use RFID tags embedded in truck loads to get a rough idea on a weekly or monthly basis when the delivered material is finding its way into the mill, but few do this on a consistent basis.

MinePortal uses machine-learning algorithms the company has augmented for geology and mining needs to automate the process.

Using features such as dynamic time warping – which measures the similarity between two temporal sequences that may vary in speed timing differences – the platform is able to reconcile timing differences from dumping ore into a primary crusher, to sitting in a stockpile, and to when the ore goes through the rest of the mill.

Putt expands on this: “There is enough robust data within a mill’s database to run dynamic time warping, a machine-learning method, to compute the delays (of the material coming into the mill) as they change.

“We don’t need the timing of the delay to be consistent; we need the data to be recorded consistently so we can find the patterns of the delays from stage to stage. Running the data through machine learning will learn the rhythms of the stockpile and filter out inconsistencies.”

At the reconciliation stage, mining companies can pair the material signatures (rock hardness, for instance) with the results from the mill (energy draw, grind size, etc).

“Typically, we find there might be one or two specific blend types that are causing the issues,” Putt said. “From there, we can carry out real-time planning to improve the operation. We then have a feedback loop where you identify the problem feeds, change the blending over the next three months and then keep running through the process for continued improvements.”

But it all comes back to ore blending.

“The best way to handle the problem is from the ore blending point of view,” Putt said. “If you can get your ore blending to be spot on where it comes with the lowest risk of impacting the mill’s performance or availability, then the mill won’t have to do anything different (change speeds, adopt new grinding media, etc).

“You still have to dig, haul and send the material to the mill, but you are sending this material to the mill in different proportions.

“It comes with the same input costs; it just requires a bit of extra planning ahead of time to save a tonne of money in the mill.”

Weba custom-engineered chutes cut the dust at platinum mines

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Weba Chute Systems says it has been able to demonstrate to platinum mining customers how its custom-engineered chutes significantly reduce dust at transfer points.

Using the latest dust measuring technology, the company has carried out tests at mines in South Africa and Zimbabwe to compare the impact of Weba designs on material flow and dust levels, Izak Potgieter, Systems Manager at Weba Chute Systems, said.

At the site in Zimbabwe, considerable dust levels were created at bunker discharge chutes. Material of up to 500 mm in size was moving through at a rate of 600 t/h.

“The material flow was the biggest factor generating dust in the conventional chute, as material was not flowing as evenly as it should,” Potgieter says. “This created a lot of energy for the dust particles to expand into the surrounding atmosphere.”

The installation of the Weba chute – with its engineered design for optimal flow control – reduced the dust levels by about 40%, according to the company.

“By controlling the velocity of material, the design not only cuts dust creation but also reduces impact and wear for increased productivity and less maintenance downtime,” Weba said.

At the South Africa operation, the tests were conducted at a transfer point in the milling plant where an average tonnage of 190 t/h was being moved. Despite the use of water sprays, the existing chute was still creating considerable dust. The installation of the Weba chute was able to reduce dust levels by 15%, according to the company.

“Dust levels have shown to have a serious impact on human health, especially smaller particle sizes of 0.3 micron,” Potgieter says. “Health effects of dust relate mainly to particle size and dust may contain microscopic solids or liquid droplets that are small enough to get into the lungs and cause serious health problems.”

Spores and contaminants associated with dust and aerosol can also adversely impact human health, causing a range of issues from respiratory infections to toxic exposure, according to Weba.