Tag Archives: Sandvik

Codelco El Teniente on its way to fully-automated mining solution, Sandvik says

Automation, Base metals, Equipment maintenance, Mine operation news, Mining equipment, Mining safety, Mining services, Mining software, , , , , , , , , ,

Sandvik says it will deliver AutoMine® fleet solutions for underground trucks to Codelco’s El Teniente mine in Chile, continuing the copper miner’s “vision of creating the most advanced underground mines in the world”.

This AutoMine Fleet system is the first step in implementing a fully-automated mining solution using Sandvik trucks at El Teniente, the biggest underground copper mine in the world, Sandvik said.

“Codelco’s goal is to dramatically increase the productivity, safety and efficiency of its operations with AutoMine. Together with the existing OptiMine® system, the mine will become a world-class benchmark,” the mining equipment maker said.

This agreement follows the April announcement that Sandvik will deliver its AutoMine and OptiMine solutions to Codelco’s Chuquicamata mine as it converts the site from open pit to an underground mine. This development is part of Codelco’s 10-year strategic project to extend the life of its existing mines.

Rafael Guzman, Chief Engineer for Automation and Technology at El Teniente, said: “As a state-owned mining company, it is our responsibility to implement technology and solutions that ensure the safety of our people and the sustainability of our mines. Being a good corporate citizen is not negotiable. It is critical to our success.”

Sandvik and Codelco started their automation journeys together at El Teniente with the first-ever AutoMine Loading system installation, in 2004.

Patricio Apablaza, Vice President for Andean and South Cone, Sandvik Mining and Rock Technology, said: “We are proud that Codelco continues to choose Sandvik as a strategic partner for its most innovative projects. Our technology will drive even safer, smarter and more productive mining for Codelco.”

The AutoMine product family allows customers to scale up automation at their own pace, according to Sandvik. The solution covers all aspects of automation, from remote and autonomous operation of a single piece of equipment to multi-machine control and full-fleet automation using automatic mission and traffic control capabilities. AutoMine installations have logged more than 2.5 million hours with zero lost time injuries.

OptiMine, meanwhile, is a suite of digital tools for analysing and optimising mining production and processes. It integrates all relevant data into one source, delivering both real-time and predictive insights to improve operations. “OptiMine is open and scalable, giving customers the flexibility to build at their own speed and incorporate other equipment, systems and networks,” Sandvik said.

Mine automation starting to take hold, RFC Ambrian says

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In its second report in a series on innovation and new technology in the mining industry, RFC Ambrian has tackled the subject of autonomous mining equipment, which, the authors say, has reached an “important level of maturity”.

The report considered both surface and underground equipment, but most notably surface mine haulage trucks where there has been an area of significant focus for major mining companies.

As the authors said: “This has reached an important level of maturity, although it is still evolving and its penetration across the industry is still in its infancy.”

AHS

The Autonomous Haulage Systems (AHS) have evolved from improvements in GPS for positioning and navigation, developments in sensors and detection –particularly radar and LiDAR, improved computing power and on-board monitoring, faster and more reliable networks and internet connection, and the development of effective and accurate algorithms and software, the authors said.

“AHS has appeared , first, at large mine operations where the benefits have the largest impacts, due to the high component of fixed costs in an AHS operation, and in developed countries where there is a shortage of skilled workers and labour costs are higher,” they said.

Outlining the potential benefits of AHS is straightforward, but finding hard data to support it is more difficult, according to the authors.

“Companies have made suggestions about the scale of improvement, but they are light on detail, definitions are not clear, and the data varies between companies,” the authors said.

Suggested improvements in productivity have come from Caterpillar (15-20%), Fortescue Metals Group (30%), Komatsu (15%), and Rio Tinto (15%), according to the authors.

“These improvements are still meaningful, and corporate companies would argue that every mine is different and that the mining companies and original equipment manufacturers (OEMs) that have so far implemented AHS have the right to guard this proprietary information and hold on to the competitive advantage,” the authors said.

Autonomy in other surface equipment

The authors said they are also now seeing this same technology used to automate other operations in the surface mine. This includes drill rigs, dozers, loaders and ancillary equipment.

“Much of this equipment is currently, at best, semi-autonomous, although a few mines have implemented fully-autonomous drill rigs and dozers,” they noted.

“Moving this equipment to full autonomy offers significant production improvements, although the scale of actual savings is not likely to be as great as those achieved with AHS,” the authors said.

“However, we have not yet seen quantified the downstream benefits of the resultant improved drilling and blasting.

“The automation of earth moving machines provides another step to increased productivity within the mine. However, loaders face additional challenges as a result of the variability of the loading face and the risk of collisions with the haulage trucks.”

Due to the complex nature of the bucket-media interaction, developing automatic loading functions that are better than or equal to expert manual drivers with regard to performance is a highly difficult task, according to the authors.

“As a result, fully-autonomous loading is not yet commercially available. Some observers suggest that the implementation of fully-autonomous surface loading is still some five years away, while others believe that full automation is unlikely.”

Underground mining

When it comes to underground mining, the authors of the report said, as with surface mining, full autonomy remains the goal.

“Mining companies and contractors are constantly looking to use technological developments to better utilise their investment in equipment and human resources and improve safety,” the authors said. “Particular features of traditional underground mines are: long unproductive periods caused by re-entry times required for operators after blasting; and higher health and safety risks due to geotechnical and environmental challenges.

“The use of autonomy underground aims to increase the productivity of the equipment and improve the safety of the operators.”

While the aims remain the same, full autonomy in the underground mine is not as advanced as in the surface mine, according to the authors.

“Haul trucks are used less frequently in underground mines, although a few mines are using haul trucks with AHS. More underground mines perform a short cycle of loading, hauling and dumping from a draw point to a tipping point with LHD equipment.

“Implementation of autonomous systems underground for LHDs is occurring, however, as with surface loading, one of the major hurdles to automating LHDs is replacing human judgement required for filling the bucket.”

This has seen full autonomy being used for the hauling and dumping cycle, but semi-autonomy usually used for loading, according to the authors. “Successful trials of fully- autonomous LHDs have been achieved and Sandvik i-series now offers an automated bucket filling assistant as a standard function,” they said.

Underground drilling operations, meanwhile, are achieving increased levels of autonomy but are also presently only semi-autonomous.

Robotic rail operations

The authors then looked at autonomous rail haulage systems, a segment of the market that has gained in prominence in the past few years thanks to initiatives such as Rio Tinto’s AutoHaul in the Pilbara of Western Australia.

The authors said: “There has been some form of automation on worldwide metro systems for many years, but one area where autonomous technology has yet to gain a foothold is rail freight. Trials are underway in Holland and Germany but implementing autonomous train driving on a complex rail network, with passenger trains and freight trains, is more difficult than on a metro system.”

The one exception to this is in the mining sector and AutoHaul, they said, where Rio has completed commissioning of the world’s first fully-autonomous, long distance, heavy-haul rail network which is now in full operation.

Pace of implementation

Despite the acclaimed success and the relative level of maturity of the technology, the wider implementation of AHS does not appear to be happening very fast, the authors argue.

“The systems of both the two main suppliers (Caterpillar and Komatsu) are well proven and have delivered positive results, although, according to consultants, both systems also have examples of less-than-expected performance.

“Nevertheless, the technical issues appear relatively minor and there is interest right across the industry but, in spite of the potentially significant benefits, more mines are not now using AHS.”

There are a number of likely reasons for this, the authors said, explaining that one of the most important is a lack of skilled personnel.

“We believe there is a lack of in-depth knowledge of the technology and limited personnel with the requisite experience, skills, and training throughout the industry’s hierarchy,” they said.

“Further, there is a shortage of skilled autonomous operators, developers, and consultants, some of who are moving to the autonomous auto market.”

Important factors in the success of AHS appear to be the level of management commitment, planning, and focus in the implementation, with the best results reported from well-operated mining sites, the authors said.

“Another factor is likely to be limitations on equipment supply from OEMs for new equipment and truck conversions, either due to manufacturing backlogs or maybe market caution, limiting investment. This is allowing the OEMs to be more selective in their customers.”

The authors cautioned: “However, if the existing suppliers do not develop additional capacity quick enough this could create opportunities for additional entrants in to the market.”

Capital availability in the mining industry could also be an issue holding back AHS advancement, they said, although it is less tight than it has been in recent years.

“Certainly, some lower-margin operations might struggle to finance the capital, although the uplift in relative profitability could be transformational, with relatively quick paybacks,” they said.
And the historical conservatism of the mining industry is also likely to be a factor, the authors said.

“There is still a natural reluctance within the industry to adopt new or unproven technology due to the high capital cost involved and the potential operational and reputational risks involved.

“This will be compounded if the organisation has limited experience and limited access to the technology.”

You can read the full report here.

Element Six synthetic diamond will help hard rock cutting achieve true potential

Diamond mining, Explosives and blasting, Mining consumables, Mining equipment, Mining services, Sustainable mining, , , , , , , , , , , , , , , , , , ,

Element Six, as a company, was set up to harness the unique properties of synthetic diamond (polycrystalline diamond or PCD) and tungsten carbide to deliver supermaterials that improve the efficiency, performance and reliability of industrial tools and technology, including in mining.

IM recently met with Element Six (E6) Global Sales Director, Mining, Road & WP, Markus Bening, to better understand what this means for the mining industry and what progress has been made.

It is worth remembering that the company while focussing on advanced materials also has a unique position in the industry, with diamond mining major De Beers Group the 100% owner of the technologies part of the business, and De Beers Group, itself, part of global mining company Anglo American. Some of the industry’s leading hard rock cutting technologies are already being used by these operators, at Anglo’s Twickenham platinum mine, for example. E6 also has all the required raw material sourcing and manufacturing capability such as advanced high pressure/high temperature presses in house to allow it to supply PCD solutions in the quality, consistency and quantity that will be needed to the mining global market.

In mining one of the most interesting markets is hard rock cutting, where the potential for Element Six materials is enormous in rock tools. In relevant ASTM tests such as B611-13, PCD performs up to 500 or 650 times better than tungsten carbide. Of course it has a significant price premium but its performance far, far outweighs this price gap. Bening stated: “PCD is a supermaterial so has a higher price but massive advantages in performance that come with it.”

 

 

 

 

 

Due to confidentiality agreements, Bening would not specify which OEMs are trialling PCD in the hard rock cutting space but confirmed that E6 is working on PCD prototype testing and trials with several leading players and has achieved impressive results.

Taking a hard rock cutting unit, E6 can supply the PCD material on its own, the whole component, the pick or the disc cutter, whatever the customer wants, but primarily E6 is a materials expert.

Bening told IM: “Today there is a lot of advanced testing and fine tuning using our PCD in the cutting tools of the latest hard rock cutting mining machines. In the next five to ten years I see continuous hard rock cutting going commercial throughout the mining industry and E6’s PCD technology will undoubtedly form an important part of that.”

As previously published by IM, major developers of continuous hard rock cutting machines for mining include Epiroc (Mobile Miner), Sandvik (MX650), Caterpillar (Rock Header/Rock Straight) and Komatsu (DynaCut).

And hard rock cutting is not the only mining focus. PCD also has potential in down the hole (DTH) drilling where Percussive Diamond Inserts are used on the bits, and again advanced trials are ongoing with the main global manufacturers of drill bits, with a lot of success so far. PCD means a lot of energy savings in bit use, and bits keeping their shape much longer meaning no regrinding is needed.

RCT brings automation to MATSA underground operations in Spain

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RCT says it has finalised a major automation project at MATSA’s Aguas Teñidas and Magdalena mines in the Huelva province of Spain.

The project involved installing ControlMaster® Guidance Automation on four CAT R2900G underground LHDs and one Automation Centre Surface Control Station at MATSA’s Aguas Teñidas copper-lead-zinc mine.

MATSA is a jointly-owned company by Mubadala Investment Co and Trafigura. It owns and operates three mines in the Huelva, including Aguas Teñidas, Magdalena and Sotiel, on top of a 4.4 Mt/y copper and polymetallic processing plant.

RCT’s automation centre at Aguas Teñidas is fitted out with RCT’s Multiple Machine Control feature enabling a single operator to remotely control multiple machines at the same time via the mine’s digital communications network.

RCT also commissioned two Sandvik LH621 underground LHDs with ControlMaster Guidance Automation at the nearby Magdalena copper mine. These Sandvik LHDs can operate on a digital network via RCT’s Area Access Cabinets which act as an extension of the automation centre and interfaces between the work areas and the machines.

This instalment builds on a previous project to mount ControlMaster Teleremote and Guidance Automation solutions on three of the site’s CAT R2900G LHDs, which operated on an analogue network via two surface control stations, according to RCT.

Guidance Automation allows machines to tram between two predetermined points on a mine site with the push of a button by operators who also receive real-time information including machine speed, rpm, direction, pitch and roll, RCT said.

“The automation centre consists of an ergonomically designed operators chair facing up from screens, which feed real-time information from sensors and machine-mounted cameras to the operator,” the company added. Teleremote, meanwhile, enables the operator to remotely manage the machine from a control station in real time.

A MATSA spokesperson said: “This system not only allows us to operate in hazardous conditions safely from the surface, but also increases productivity by permitting us to operate during shift change and smoke clearing. We also have the capability to simultaneously operate more than one piece of equipment with the same teleremote operator.”

RCT Account Manager, Shane Smith, said the Guidance Automation products would provide solid benefits for MATSA. “ControlMaster Guidance Automation has a proven track record of improving operator safety in a traditionally hazardous working environment by removing them from the mine face,” he said.

“The faster tramming speeds will also help to boost site productivity on site and limit unplanned machine downtime due to repairs from machinery accidents while the new automation centre will reduce operator fatigue due to improved comfort and ease-of-access on the mine’s surface.”

Sandvik to automate and digitalise Codelco’s Chuquicamata underground mine

Automation, Base metals, Communications in mining, IoT, Mine operation news, Mining equipment, Mining safety, Mining services, Mining software, , , , , , , , , , , ,

Sandvik says it will automate and digitalise Codelco’s underground copper operation at Chuquicamata, in Chile, creating one of the “most efficient and advanced underground mines in the world”.

Sandvik’s AutoMine® and OptiMine® solutions will allow Codelco to operate its new fleet of Sandvik LH621 loaders in fully autonomous mode, the mining equipment maker said.

Codelco is converting Chuquicamata from an open pit to underground mine as part of a 10-year strategic project to prolong its existing operations. It is due to start up in 2019.

Sandvik said: “The open system integrates manual operations and autonomous equipment into one powerful solution with AutoMine and OptiMine, enabling full transparency and real-time control over the parallel production and mine development activities.”

Andrés Avendaño, Operations Manager, Chuquicamata Underground, said: “Using our mines to full effect is part of our focus on sustainability and a key driver for our business. Automation and optimisation are critical to getting the most from our mines and keeping our people safe while we do it.”

Sandvik and Codelco started their automation journeys together with the first-ever AutoMine loading system installation at Codelco’s El Teniente copper mine, in 2004, Sandvik said.

Riku Pulli, Vice President, Automation, Sandvik Mining and Rock Technology, said: “Codelco has been an important partner for us from the beginning. It’s fantastic to continue the partnership as our visions are well aligned. We look forward to working with Codelco to deliver even smarter, safer, more productive mining through digitalisation.”

Codelco is the number one copper producer in the world and is owned by the Chile government. It controls about 19% of the world’s copper reserves and is also the second producer of molybdenum worldwide, with 24,000 t produced in 2018.

Sandvik’s digital solutions, including AutoMine, OptiMine and “My Sandvik” are working in hundreds of mines around the world.

The AutoMine product family allows customers to scale up automation at their own pace, covering all aspects of automation, from remote and autonomous operation of a single piece of equipment to multi-machine control and full-fleet automation using automatic mission and traffic control capabilities. AutoMine installations have logged more than 2.5 million hours with zero lost time injuries, according to the company.

OptiMine, meanwhile, is a suite of digital tools for analysing and optimising mining production and processes. It integrates all relevant data into one source, delivering both real-time and predictive insights to improve operations, Sandvik said. OptiMine is open and scalable, giving customers the flexibility to build at their own speed and incorporate other equipment, systems and networks.

Second Sandvik roadheader heading to Turquoise Ridge gold mine

Automation, Explosives and blasting, Mine operation news, Mine shafts and equipment, Mining equipment, Mining services, Mining techniques, Precious metals, , , , , , , , , ,

The transition of Barrick Gold and Newmont Mining’s Turquoise Ridge gold mine (owned 75:25) in Nevada, US, to a Tier One operation is tracking to plan, the Canada-based miner said recently, with the Sandvik MR361 roadheader it took delivery of back in 2017 continuing to prove its worth.

Barrick said in its December quarter results that it is looking to increase production and resources at Turquoise Ridge through mechanisation, automation, and innovation.

The ramp up of the roadheader over 2018 improved safety, increased throughput, and dropped mining costs per tonne, the company said in its results statement. This has led to Barrick ordering a second roadheader, manufactured by Sandvik, which will be delivered to the operation later this year. On top of this, Barrick said it is evaluating the opportunity associated with increasing the level of mechanisation and automation for the operation.

Barrick already has extensive experience using Sandvik roadheaders, with the company having employed a MH620 unit at its Cortez gold mine, also in Nevada, US. Weighing 125 t and driven by a 300-kW cutting motor, the MH620 cutting the Range Front declines at Cortez is one of the world’s largest roadheaders.

Construction of a third shaft at Turquoise Ridge continues to advance according to schedule and within budget, Barrick said in the results statement, with efforts in 2019 focused on earthworks and shaft sinking.

“The construction of this shaft is expected to increase annual production to more than 500,000 oz/y (100% basis), at an average cost of sales of around $720/oz, and average all-in sustaining costs of roughly $630/oz,” Barrick said.

“As of December 31, we have spent $62 million (including $3 million in the December quarter of 2018) out of a total estimated capital cost of $300-$325 million (100% basis) on the construction of this shaft.”

Initial production from the new shaft is expected to begin in 2022, with sustained production from 2023.

Since the end of 2015, reserves at Turquoise Ridge have increased by 3.5 Moz (100% basis), primarily through driving down mining costs per tonne, which has allowed for a lower cutoff grade, thereby optimising the way the orebody is mined.

“The focus in 2019 is to realise the potential to further grow reserves, extend mine life, and grow production over and above the current mine plan, through reducing costs to further lower the cutoff grade, as well as extending mineralisation at depth,” Barrick said.

RCT’s Kalgoorlie branch makes quick work of automating Sandvik LH621i LHD

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RCT says it has successfully installed its autonomous technology on the recently released Sandvik LH621i underground loader for one of its clients in Western Australia’s Goldfields.

Earlier this month, RCT’s Kalgoorlie branch received the loader and commissioned the ControlMaster® Guidance automation technology package only weeks after the machine was first released to the Western Australia market.

The ‘i’ series represents Sandvik’s latest iteration of its underground loader range and, according to Sandvik, is the LHD of choice for rapid mine development and large-scale underground production. It is a matching pair with the previously introduced 63-t payload Sandvik TH663i truck.

ControlMaster Guidance Automation means machines can automatically tram between production level locations at higher speeds while also providing real time, graphical machine information to operators situated in remote automation centres, RCT said.

RCT Kalgoorlie Branch Manager, Rick Radcliffe, said the company could install and commission the Sandvik LH621i loader and deliver it to site within a relatively short lead time.

“Now that we have documented the new LH621i, all future ‘i’ series loaders can be commissioned in exactly the same amount of time as traditional Sandvik 621 loaders,” he said.

“This work follows on from a previous project where we commissioned two Sandvik LH517i loaders in the Kalgoorlie workshop for clients in the region.”

Sandvik launches Power Carbide to highlight rock tool capabilities

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Sandvik has chosen to gather its range of rock tools with cemented carbide into a new group called Power Carbide.

The range comes with a combination of strength, hardness, toughness and wear resistance. All of these properties significantly enhance both drilling performance and cost effectiveness, Sandvik said.

Sandvik was the first company to produce rock tools with cemented carbide, which is one of the most successful composite engineering materials ever produced, it said.

Marie Lundbäck, R&D Manager Hard Materials, Rock Tools, Sandvik Mining and Rock Technology, said the introduction of PowerCarbide enables the company to showcase the importance of carbide grades in drilling operations. “Our key strengths in this area lie in our innovations in advanced material compositions and production processes,” she said.

Sandvik’s leading position in the cemented carbide tool market is down to a focus on R&D, continuous investments and close customer collaboration, according to the company. Sandvik also controls its entire production chain – from its own tungsten mine to the production of drill bits – which is unique in the market, it said.

Lundbäck said: “As we have the most comprehensive range of advanced carbide tools, we can offer our customers tailored solutions to meet their specific drilling needs. At the same time, we are able to contribute to a more sustainable future through our unique global carbide recycling system.”

The Sandvik PowerCarbide family currently consists of the grades DP55, DP65, GC80, SH70, XT49, XT70 and XT90. New grades will be launched and added to the family as Sandvik continues to develop the range, it said.

Henrik Ager to lead Sandvik Mining and Rock Technology

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Sandvik has appointed Henrik Ager, currently President for the Rock Tools division, as President of the Sandvik Mining and Rock Technology business area and a member of the Sandvik Group Executive Management, effective April 1.

Ager has more than 16 years’ experience in the mining industry, of which an extensive period has been spent living in South Africa. Additionally, he has worked in Australia, South America, India and other important mining markets.

His previous experience at Sandvik includes being President for the Global Equipment division and Vice President for Strategy within Sandvik Mining and Rock Technology. He also held leading positions at McKinsey, Ericsson and several high-tech start-ups prior to joining Sandvik in 2014.

Sandvik’s President and CEO, Björn Rosengren, said: “I’m convinced that Henrik Ager, with his experience, already proven leadership skills and excellent performance in Sandvik, has the right capabilities to lead Sandvik Mining and Rock Technology going forward.

“Henrik is committed to further strengthening Sandvik Mining and Rock Technology’s market position, reinforcing customer relations, driving aftermarket sales, leveraging further on a decentralised way of working and ensuring our forefront position within automation, electrification and sustainability.”

Ager succeeds Lars Engström who, as announced last month, will leave Sandvik.

Photo credit: Gefle Dagblad, GD

Barrick working with Sandvik on autonomous and manned equipment interaction

Automation, Mine operation news, Mining equipment, Mining safety, Mining services, Mining software, Precious metals, , , , , , ,

Barrick Gold says it is advancing autonomous production systems and projects as it looks to become the global leader in mining efficiency.

President and CEO Mark Bristow said in the company’s 2018 financial results that to achieve its goal of being the world’s most valued gold company, in a rapidly evolving environment where the industry’s shift to developing countries will continue, Barrick will have to be at the leading edge of automation.

“Kibali, in the Democratic Republic of Congo, is currently at the forefront, with its mission control system which manages the underground ore handling logistics without human intervention from the surface, but across Barrick there are many automated operations and developments which are now being unified in a group strategy,” he said.

These include, Barrick said, underground drills that can be run from surface during shift changes; automated underground and open-pit haulage trucks; fully-autonomous backfill systems; remote-controlled open-pit drills; and autonomous drilling of development and production blastholes by multiple units controlled by a single remote operator.

Glenn Heard, Senior Vice President Mining, said ongoing projects currently cover five main areas: underground development and production drilling, production and haulage, and open-pit haulage and production.

“At present, all our systems have barriers which prevent human access to the autonomous operating zones. Our next big step will be to create a situation where autonomous and manned units can work together seamlessly within the same active areas, and we’re working with Sandvik and other providers to achieve this,” he said.