Tag Archives: Boliden

Metso completes mill lining hat-trick with Discharge End Megaliner

Automation, Comminution of minerals, Equipment maintenance, Mineral processing, Mining consumables, Mining equipment, Mining maintenance, Mining safety, Mining services, , , , , , , , , ,

Metso has once again flexed its R&D muscles, launching a new and innovative product that, it says, can speed up and improve the safety of one of the trickiest and riskiest processes mill personnel carry out.

The Discharge End Megaliner builds on the Metso Megaliner™ concept the company introduced in 2012. Designed to reduce downtime by minimising the number of parts and people inside the mill during a relining process, the Megaliner has so far been installed in over 30 mills around the world.

A Megaliner element integrates multiple lifter and plate rows and has a minimum number of attachment points. Covering an area several times larger than conventional liners, these liners are light weight in relation to their size and, with threaded bushings, enable safer and faster relining processes to be conducted.

The initial 2012 Megaliner launch saw these lightweight liner parts developed for the mill shell. In 2015, Metso expanded the lining concept to the feed end of grinding mills. The company is now ready to tackle the tricky mill discharge end to complete the hat-trick.

Anssi Poutanen, Vice President of Metso’s Mill Lining product line, said the mill shell was the obvious starting point in the Megaliner evolution.

“The shell represents the largest number of components to install so the potential for time savings for customers was large, hence why the Megaliner started there,” he told IM. “We have since extended to the feed end of the mill and now to the discharge end.”

The new product, which has been in the development pipeline for some time, according to Poutanen, is by no means just a bolt on to the existing Megaliner range.

“Even though the discharge section of the mill lining process is not as big from a volume perspective, the need for long bolts and a complex fixing arrangement in conventional installations makes it one of the most time-consuming and risky processes to carry out,” he said. “The Discharge End Megaliner is a highly valued addition to our Megaliner range as many of our customers struggle with the process.”

The conventional process Poutanen references here is worth spelling out.

With grate discharge mills – typically SAG, AG and ball mills – the conventional relining process at the discharge end usually involves removing the dischargers and grates, replacing with new lined versions and hammering in large, long bolts through the layers to secure the liner components.

“Even if modern recoilless hammers are used, it is still a challenge,” Poutanen said. “When the bolts become loose, they are hazardous and can potentially injure personnel.” In this process, personnel are also inside the mill – one of the most dangerous sections of the whole process plant.

On top of the large, long bolts, nuts are also required to fix the panels in place with conventional lining processes, adding up to multiple individual pieces and attachment points that must be fixed securely from inside the mill, Poutanen explained.

The Discharge End Megaliner, meanwhile, sees dischargers, grates and segments preassembled into one large unit. These are equipped with threaded bushings that are secured with “short bolts” from – very importantly – outside of the mill, he said.

This makes for an up to 50% faster lining installation using up to 70% fewer parts than the conventional process, according to Metso.

Poutanen says the new Discharge End Megaliner can be applied to any type of grate discharge mill – there is no prerequisite for Megaliner liners in the shell and feed end, for example – as long as there is a wide enough trunnion opening to remove and replace the liners, and a liner handler of sufficient capacity.

Metso is targeting the large end of the grinding mill market with this new development. The larger the mill, the greater the throughput, which has a direct impact on the costs associated with potential downtime caused by the relining process, Poutanen explained.

This has already been tested out at Boliden’s Aitik mine, in Gällivare, Sweden, which is currently undergoing an expansion to 45 Mt/y throughput.

The base metal mine already has Megaliner mill liners on the shell and feed end of both of its primary AG mills and has tested the new Discharge End Megaliner over nine months at one of these 38 ft (11.6 m) mills.

The Aitik trial has proven around 70% fewer parts are required compared with the conventional process. Relining has also been carried out much quicker and safer, according to Poutanen.

Similar to LHD operators being removed from the cab in order to remotely operate loaders in potentially unstable areas of underground mines, the ability to carry out the relining process from outside of the mill ‘danger zone’ could be considered an initial stage towards a fully automated relining process.

Poutanen agreed: “I think at some point, we will see a higher degree of automation. It is unlikely to be binary; it will be a gradual process.”

He said the combination of the Megaliner and Metso’s camera-based liner positioning system – which is offered to all Megaliner customers as an “add on” to the liner handling equipment – could help make the process more autonomous.

In order to be able to develop this kind of fully autonomous package, a close collaboration with customers and liner handler suppliers is required, he said. “I think we are still a few years away from having the process move to fully autonomous mode.”

Cisco IoT solution underwrites Boliden automation transition at Garpenberg

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Cisco says it has helped Sandvik and Boliden deliver a safe, autonomous and efficient operation at the miner’s Garpenberg underground mine in northern Sweden.

The IoT solutions provider has installed a low latency IoT network with Cisco industrial switches and access points in the mine, which is more than 1 km underground, to facilitate this transition.

As Cisco says, Boliden was after a reliable industrial network architecture that can operate in its mine, could allow machinery to operate autonomously to keep workers out of dangerous areas, and could improve operational efficiencies in the mine while reducing costs.

Working with Boliden and Sandvik Mining and Rock Technology, one of Cisco’s first few Design-In Program partners, the company came up with a solution.

The network installed at the mine allows large machinery, such as Sandvik LH517s, to operate remotely and autonomously in areas that could be unsafe to send people. With the support of Sandvik’s AutoMine® for autonomous mining equipment and Sandvik’s OptiMine® software to analyse and optimise production, Boliden mining engineers can remotely (and safely) operate the machinery from a control room, it says.

This also makes it possible for Boliden mining engineers to work in a cleaner, healthier environment, according to Cisco.

SpacEarth addresses mine collapse risk with Mines-In-Time

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The EIT RawMaterials supported start-up, SpacEarth Technology, has developed a new automated solution for real-time monitoring of ground displacements in mining to increase workers’ safety as well as mining asset integrity, EIT said.

Mines-In-Time (MIT) is designed to monitor rock mass during mining operations and is integrated in a traffic-light decision support system (DSS) to avoid risks and cost related with mine collapses, EIT said.

The solution has been validated in relevant environments on the micro-seismicity data recorded at Boliden’s Garpenberg mine, in Sweden, one of the world’s most productive and automated underground zinc mines, currently mining at 1,250 m depth.

The Mines-In-Time solution addresses the following:

  • Control ground deformations and stress alteration of the rock mass during mining operations;
  • Improved safety during mining operations; and
  • Enabling real-time autonomous decision-making systems.

Based on the four dimensions Local Earthquake Tomography (4D LET) methodology, Mines-In-Time is able to analyse both natural and induced micro-seismicity from mining operations, according to EIT.

“This technique is an unparalleled upgrade of the traditional ambient noise analysis and time-lapse 3D LET, since the addition of the fourth dimension (time) allows real-time monitoring of ground deformation related to the stress variation, and provides an instant alert in case of risky conditions, using data provided by the existing networks of seismographs already installed in most of the mining sites (no extra hardware to be installed),” EIT said.

For this reason, MIT is the only DSS and early warning system for mining able to dynamically forecast rock deformations and provide an alert in case of critical conditions, according to EIT.

Mining companies and service providers will benefit from a reduction of health and safety risks of personnel involved in underground works and reduction of economic losses due to collapses and failures, according to EIT.

It will also improve planning and scheduling of mining and maintenance operations, saving costs associated with inspections, analysis and monitoring, estimated in the order of 30% with respect to current practices.

SpacEarth Technology, a spin-off of the Italian Institute of Geophysics and Volcanology (INGV), was founded in 2014 and supported by the EIT RawMaterials Booster to develop applications for the mining industry.

SpacEarth has direct connections with mining companies (Bolden and LKAB), service providers (DMT and IMS), and the Luleå University of Technology, all of which are tied to working on seismic hazards in mines.

It was initially supported by the EIT RawMaterials Start-up and SME Booster 2016 and 2017.

“The EIT RawMaterials Booster supported the delivery of a market study for the mining sector including direct contacts with client prospects,” EIT said. “As a result, the company achieved a higher technology level, and this boosted the technology attractiveness from the industry.”

Mines-In-Time will be further validated in 2020 thanks to a recently established contract between SpacEarth and Boliden.

Savka Dineva, Professor, Luleå University of Technology, said: “The seismic hazard in the mines is strongly related to the stress changes and the condition of the rock mass (fracturing process with time). That is why monitoring of these two factors is important to foresee the changes in the seismic hazard. MIT is a valuable tool that could give important information about the changing stress and rock conditions – it can be used for large volumes.”

Boliden Kevitsa collaborating on process plant maintenance

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Boliden is a front-runner when it comes to applying technology and innovation to its Europe-based mines, and the company is now leading an industry move in condition monitoring and predictive maintenance in its process plants.

At its Kevitsa copper-nickel mine, 130 km north of the Arctic Circle in Finland, Boliden has been collaborating with the likes of IBM Maximo, OSISoft, SKF and Metso on condition monitoring and predictive maintenance solutions, according to Sami Pelkonen, Maintenance and Engineering Manager at Boliden Kevitsa.

Expansion in the plans

The mine is in the throes of an SEK800 million ($82 million) expansion that will see plant throughput go from 7.8 Mt/y to 9.5 Mt/y. This involves the addition of a new autogenous mill and peripheral equipment (including a new Metso MF series screen), and a new mill building. Commissioning of the new equipment is expected in 2020, with the mine reaching full 9.5 Mt/y capacity in 2021.

With this expansion going on, plant maintenance has moved up the agenda.

Some 80% of process plant maintenance is currently pre-scheduled, with the Kevitsa mine achieving, on average, 93% availability from its equipment, according to Pelkonen, but Boliden Kevitsa is looking to increase these numbers.

Pelkonen told IM late in October that the Kevitsa mine has been looking to acquire “good quality…and useful data to support our daily maintenance operations and procedures” at its plant. This is all part of the company’s plan to increase uptime and cut costs at the operation.

As part of this initiative, it installed the IBM Maximo asset management system in May of this year. At the same time, the operation has been working with the Boliden Mines Technology Department on a wider asset management program.

When it comes to plant reliability, Boliden Kevitsa has enlisted the help of SKF (for condition monitoring of bearings throughout the plant), OSISoft for process data acquisition, and Metso to ensure uptime of mineral processing equipment is maximised and unplanned downtime is reduced.

Partnering for performance

The partnership with Metso dates back to before the mine was acquired by Boliden in 2016, but in recent years the two have collaborated on crusher and mill uptime projects, with the OEM supplying mill liners and wear parts that can be switched out quickly and cost effectively. The two firms have also been in constant communication about accessing and analysing valuable process plant data during the last three years.

When the mine acquired a new MF screen from Metso in May (pictured), it decided now was the time to trial the new Metso Metrics predictive maintenance platform in this part of the flowsheet.

Pelkonen explained: “After the increase in production (to 9.5 Mt/y), the front end will be even more critical for us, so we have to be aware if any failures are developing in our front end; especially in our screen.”

The remote location of Kevitsa, situated some 40 km by road from Sodankylä, is also behind the need for this type of condition monitoring and predictive maintenance.

“If something happens like we have an equipment failure, it takes around one hour for our employees to get to the mine,” he said. “Condition monitoring helps us address the need to get resources to site in the correct time.”

The Metso Metrics test paid off almost instantly, when, soon after installation, the company noticed there was something wrong with the running speed of the screen.

“The indication we received from Metso Metrics helped us map out that there were two broken V belts. We were able to cut the downtime to a minimum thanks to the information coming from Metrics,” Pelkonen explained.

Sami Pelkonen was speaking to IM as part of an upcoming Insight Interview with experts from Boliden Kevitsa and Metso that will be published in early-2020

Trolley assist to take off, ABB’s Hammarström says

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Thanks to Boliden’s recent trial at its Aitik open-pit mine, in Sweden, the subject of trolley assist is back on the mining industry’s agenda.

Offering environmental and productivity benefits, trolley assist technologies have been spoken of for decades. In the height of the oil crisis of the 1970s, numerous studies examining applications were completed and miners made preparations to reduce their reliance on diesel.

Despite this, widespread industry adoption has not occurred. There have been some installations in Africa, in addition to one in Turkey (Kisladag), but the technology has not caught on to the extent many thought would happen.

ABB, which supplies not only batteries, drives and motors for battery-electric equipment, but can also provide the infrastructure required for trolley assist projects, believes the market is about to turn once again. Gunnar Hammarström, Global Product Manager Trolley Electrification Systems for ABB, thinks there are three main reasons why it is about to take off.

“One is the legislation and environmental part of the business case,” he told IM.

Boliden, which has moved from the 700 m trolley line trial at Aitik to confirming it will install an additional 3 km of trolley line at the mine, plus 1.7 km at Kevitsa (in addition to the accompanying conversion of diesel-electric haul trucks), says it will reduce its diesel consumption by 5,500 cu.m/y when its investment is complete. That is a big number.

“Another completely different reason for why demand has been picking up, especially for larger trucks, is there are a lot of diesel-electric trucks coming into mines,” he said. These trucks already have an electrical system on board to tap into, which makes it easy to put them on a trolley line.

Lastly, fuel prices are increasing all the time, Hammarström said. This is leading miners to diversify their energy mix to help reduce input costs.

When added to the productivity gains that can be achieved with trolley assisted haul trucks and the reduction in noise when trucks run on this line, it is hardly surprising Boliden is not the only one charging into trolley assist.

In the last year alone, First Quantum Minerals has said it will equip its Cobre Panama copper-gold mine, in Panama, with trolley assist, while Austria iron ore miner, VA Erzberg, has announced it intends to electrify the main haul road of its Erzberg mine site and operate a fleet of T 236 trucks from 2021 under trolley assist.

On top of this, RNC Minerals has said it is studying the use of trolley assist at its Dumont nickel-cobalt project in Quebec, Canada.

While trolley assist has been used long before the mine electrification phenomenon we know today gained traction, Hammarström sees trolley assist helping facilitate this market move.

“Generally speaking, I think for most of the vehicles you have in a mine, you can go on battery, but it is very far into the future where you have major uphill transportation of all your production in the mine through batteries,” he said.

The technology involved with stationary charging and the ability to re-charge the battery when going downhill would need to improve on the biggest haul trucks to make it a viable proposition, he explained.

“Yet, if you look into the future – and not that far – a diesel electric trolley might be an intermediate phase,” he said. “If you have invested in trolley now, you can certainly use it when you have batteries (driving the trucks).”

This could see battery-powered haul trucks carry out tasks ‘off-line’ when going downhill or on a flat before they ‘attach’ back onto the line for uphill transportation of material when the battery is recharged.

“I think after diesel-electric powered haul trucks, it will be a really good chance for on-board charging,” he said of the trolley infrastructure.

Boliden backs trolley assist haulage for Aitik and Kevitsa

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Boliden has decided to invest SEK300 million ($31.2 million) to expand the trolley assist facilities at its Aitik copper mine, in Sweden, as well as implement the corresponding technology at its Kevitsa nickel mine, in Finland.

The investments, to be made mainly during 2020-2021, come on top of the money invested in a two-year trolley assist pilot project at Aitik. This project saw Eitech and ABB supply electrical infrastructure; Pon Equipment and Caterpillar carry out truck modifications; and Chalmers University provide supporting research on system aspects of the electrification. It led to a 700 m electric trolley line being installed and four Cat 795F haul trucks being converted.

The project was also supported by the Swedish Energy Agency and saw investment in a 10 MW capacity DC substation.

Aitik is currently the only mine in the arctic where electric trolley has been installed, according to Boliden.

Mikael Staffas, President and CEO of the Boliden Group, said: “We are now taking further steps to improve both productivity and climate impact at our two open-pit mines.”

In Aitik, a further 3 km of electric trolley line will be built and another 10 trucks will be converted for electric trolley lines. Overall, the plan means that greenhouse gas emissions from transportation over the life of mine are reduced by nearly 15%.

In Kevitsa, 13 mining trucks will be converted for electric trolley lines at the same time as the 1.8-km-long electric trolley line is being built. The investment means that greenhouse gas emissions over the life of mine are reduced by 9%.

The electric trolley installations are being deployed in stages until 2022.

Boliden calculates that this move will reduce diesel consumption by 5,500 cu.m/y when the investment is completed.

In addition, productivity gains are expected as the electrically powered trucks can run at a higher speed than the diesel equivalents.

The working environment for the drivers is also improved, not least through lower noise levels, Boliden added.

AI lays groundwork for process control improvements at Boliden Aitik

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A series of tests at Boliden’s Systems Technology division has indicated that artificial intelligence (AI) could unlock further gains from its productivity efforts at the Aitik copper mine, in Sweden.

The company, which partnered up with ABB for these tests, conducted the AI studies to see if technology is available today that could make its concentrators “self-learning,” it said.

The trial took place during the autumn and took a closer look at how AI could be used by Boliden to optimise its concentration processes.

Aitik, meanwhile, is in the middle of an expansion plan that will see production increase from 36 Mt/y to 45 Mt/y of copper ore starting in 2020.

Development Engineer and Project Manager, Johannes Sikström, explained: “At Systems Technology, we develop dynamic simulations of our processes. These simulations can be used in the same way as a game where we define what is a win and what is a loss.

“In the case of self-learning algorithms – so-called deep learning or reinforcement learning – the challenge is the great quantity of data necessary for the algorithm to learn enough about the system for it to make effective decisions.

“This is why games are such a major area within AI research. Games are well suited to enable algorithms to train themselves, and what constitutes a successful result – a win – is also well defined,” he said.

The simulation models enable the company to re-create data equivalent to several decades in just a few hours, according to Boliden.

In its previous projects, Boliden primarily researched machine-learning techniques that analyse data without allowing the algorithm itself to influence it. The aim of the latest project was to allow the algorithm to self-learn instead.

Following initial studies into suitable tools together with Anders Hedlund from data analysis firm BI Nordic, the project led to a degree project in a collaboration involving ABB and Boliden. Max Åstrand from ABB was appointed Supervisor, with his colleague Mattias Hallén taking the lead.

Sikström said: “We directed our attention to the grinding process in Aitik, where we have a well-developed simulation model. We wanted to see if AI was able to do better than our existing control strategy.

“Mattias did a fantastic job setting up the architecture and getting the various environments to ‘play ball’ with each other. We were then able to test various algorithms and different goal functions.”

To begin, Boliden tested a “Q-learning algorithm” which had a goal of trying to control the mill’s load within a given range. After around 40 attempts, the algorithm taught itself to do just that, according to Boliden, acknowledging that it solved the task using a method that would not work in the real world.

In the next step, Boliden investigated the ability of the algorithm to optimise a “gain” instead of optimising a process variable. The goal function for the gain was created as a theoretical model using metal prices, grinding and throughput, for example.

Sikström said: “With this goal function, the AI algorithm succeeded in beating our PID (project initiation documentation) structure to produce a greater gain. So-called wall time was around 80 hours before AI had learned to run the process profitably, in this case equivalent to a plant operating time of more than 300 years.

“The study highlights the value of simulations, and the AI technology shows exciting development opportunities for Boliden’s future process control.”

While the test results were positive, with AI performing better than Boliden’s current control method, Sikström said further studies were necessary before the company considers approaching a viable production solution.

He concluded: “Several technical details need to be resolved, and it is important to use accurate simulation models and well-defined goal functions.

“Because an algorithm is only able to solve the problems formulated for it, process knowhow and experience are at least as important in this type of development as classic process control.”

ABB closes the short interval control and scheduling loop

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ABB, in collaboration with Boliden AB and ArcelorMittal Mining Canada, has launched ABB Ability™ Operations Management System (OMS) for mining, a system that “connects and coordinates mine operators, workforce, equipment and all mining activities in real-time, from face preparation to crusher”.

OMS maximises coordination between weekly production plans and dynamic situations in the mine to improve efficiency, increase productivity and maximise profitability, according to the company.

The company explained: “Mine planners often have to build a short-term plan with limited visibility of ongoing activities in the mine. While mine operators constantly consider and evaluate a complex set of operational constraints, adjusting to ever-changing, day-to-day and hour-to-hour situations. This can impact operational efficiency and raise costs.”

ABB says the integration of short interval control and closed loop scheduling into a single digital platform, ABB’s OMS, will improve responsiveness to unplanned events and reduce production variability through all the mine stages.

The ABB Ability OMS can present ‘what-if’ scenarios in case of task failure or operational change, helping mine operators and planners make better decisions faster, ensuring ongoing operation of the mine and increased productivity, it said. Equipment availability is also improved by moving from a reactive to a predictive maintenance model, according to ABB. “Through all the stages of the production cycle, the production flow from the mine is maximised.”

Eduardo Lima, Product Manager for Integrated Mine Operations at ABB, said: “Although it may seem simple, the coordination between the tactical plan and the operational plan is one of the top challenges faced in modern mining. By offering advanced short-term planning and increased automation, ABB Ability Operations Management System enables the mine to act as an ore factory.”

He added: “Ore inventory can be tracked and controlled to allow maximum flow and optimal grade. By integrating operational technology and information technology, operational awareness is increased for all personnel.

“Staff see the same information at the same time and can jointly decide what actions to take in real time with no need to wait until the end of the shift.”

Short interval control application allows mine operators to monitor and review operational plans and performance based on targets, metrics and key performance indicators. Variances can be analysed and mitigated in real time during a shift for immediate corrective action.

The closed loop scheduling application, meanwhile, combines high-level planning with low-level control through a “heuristic auto-scheduling algorithm”. ABB said: “This allows mine planners to achieve new levels of production scheduling efficiency from bench preparation to crusher, optimising resource usage in real time and following the production plan more effectively.”

In developing ABB Ability OMS with ABB, project teams at both ArcelorMittal Mining Canada’s Integrated Remote Operations Center and the Boliden Mine Operation Center provided operation expertise, existing infrastructure and dedicated resources support, ABB says. The technology was piloted at Boliden’s Renstrom underground mine, in Sweden, and by ArcelorMittal at the Mont-Wright open-pit mine, in Canada.

The ABB Ability OMS is part of the ABB Ability MineOptimize portfolio of digitally connected products, services and solutions aimed at enabling modern mines to “maximise visibility, reliability, productivity and energy efficiency and optimise performance”.

Boliden Kevitsa takes delivery of first EU-Stage-V-compliant Komatsu haul truck

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Boliden has received the first haul trucks from Komatsu as part of its investment in a new truck fleet at its Kevitsa (Finland) and Aitik (Sweden) open-pit base metal operations.

The delivery marks the entry of Komatsu electric dump trucks into the European market, according to the miner.

For Kevitsa, 17 Komatsu 830E-5 haul trucks will be delivered until January of 2020, with nine Komatsu 930E-5 haul trucks being delivered to Aitik until April 2020.

The new trucks are the first EU Stage-V haul trucks within Boliden’s fleet, significantly reducing diesel exhaust emissions, the company said. They will also provide improvements in operator environment and safety, Boliden added.

The Komatsu 830E-5 haul trucks have a 220 t payload and will replace the current truck fleet at Kevitsa, reducing the mine’s production cost, Boliden said. To further increase efficiency and productivity, the trucks will be equipped with dispatch and maintenance systems from Modular Mining to enable optimised production and tracking as well as fleet maintenance support, the company said.

Boliden mentioned the purchase of trucks back in October during its September quarter results, saying it had reached agreement with Komatsu regarding an investment totalling some SEK 900 million ($96 million). At the time, the company said all of the trucks were equipped for future electrification; an important point considering the trolley assist trial ongoing at Aitik.

To mark the delivery milestone of the first truck, a handover ceremony was arranged in Kevitsa on July 10.

During the event, strategies and technical solutions were presented by executives such as Boliden President and CEO, Mikael Staffas, and Managing Director and CEO of Komatsu Europe, Masatoshi Morishita.

Mikael Staffas said: “This is an important step in the development of our open-pit mines while improving our environmental performance from an already strong position. This [is], not least, because we now create opportunities for increased electrification and related productivity development.”

Masatoshi Morishita says: “Today is a milestone for Komatsu Europe. With the delivery of first CE-certified Electric Dump Trucks to Boliden, Komatsu can offer a full line-up of mining products and solutions in Europe as well. We aim this will only be the start.”

The Electric Mine charges on to Sweden

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Following the success of the inaugural Electric Mine event in Toronto, Canada, in April, International Mining Events has wasted no time in confirming the 2020 follow up; this time in Stockholm, Sweden.

Taking place at the Radisson Blu Waterfront Hotel on March 19-20, 2020, The Electric Mine 2020 will be even bigger, featuring new case studies from miners implementing electrification projects and presentations from the key OEMs and service suppliers shaping these solutions.

A leading hub in Europe for mining equipment and innovation, Sweden was the obvious choice for the 2020 edition of the event. Miners including Boliden and LKAB have already made electric moves above and below ground, and the north of the country is set to host Europe’s first home-grown gigafactory, the Northvolt Ett lithium-ion battery cell facility.

Sweden and Finland also play host to Europe’s major mining OEMs such as Epiroc, Sandvik, Metso and Outotec (soon to possibly be Metso Outotec Corp), and the Nordic region has a rich mining innovation legacy.

Capacity crowd

The announcement of the 2020 Electric Mine edition comes hot on the heels of a hugely successful debut in Toronto.

With the Radisson Admiral, on Toronto Harbourfront, filled out to capacity, the circa-150 attendees were treated to more than 20 world-class papers from miners Vale, Goldcorp (now Newmont Goldcorp), Kirkland Lake Gold, Boliden and Nouveau Monde Graphite; OEMs Epiroc, Sandvik, Caterpillar, Volvo CE and BELAZ; and equipment and service specialists Siemens, ABB, GE Transportation (a Wabtec company). Presentations from Doug Morrison (CEMI), Marcus Thomson (Norcat), David Sanguinetti (Global Mining Guidelines Group), Erik Isokangas (Mining3) and Ali Madiseh (University of British Columbia), meanwhile, provided the R&D angle delegates were after.

The event was a truly global affair, attracting delegates and exhibitors from Africa, Australasia, Europe, North America and South America, all eager to hear about developments across the sector.

Bigger and better

International Mining Events is upping the ante for 2020, increasing the event capacity to 200 delegates and making plans for a possible site visit to witness electric equipment in action.

Talks from several miners, as well as global international companies, will again underpin the 1.5-day conference program, which will also expand to cover the use of renewable/alternative energy within the field.

There will, again, be opportunities for sponsorship and exhibiting, with several companies already in discussions about booking the prime opportunities for the event.

If you would like to know more about The Electric Mine 2020, please feel free to contact Editorial Director, Paul Moore ([email protected]) or Editor, Dan Gleeson ([email protected]).

In the meantime, we look forward to seeing you in Stockholm!