Tag Archives: Iron ore

BHP’s Jurgens presents big picture automation plan

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Diane Jurgens, BHP’s Chief Technology Officer, used her time on stage at the Bank of America Merrill Lynch SmartMine conference, in London, to highlight the company’s plan to introduce full or partial automation across its entire value chain.

The miner has already introduced automation across many of its operations – from haul trucks at Jimblebar (Western Australia) to drill rigs at Western Australia Iron Ore – but Jurgens said the company has bigger automated plans.

This includes considering opportunities to accelerate truck autonomy across the company’s Australia and Minerals Americas sites – the company previously detailed plans to automate around 500 haul trucks across its Western Australia Iron Ore and Queensland Coal sites – and introducing “Decision Automation” to link autonomous processes and data from different sources together to create “near instantaneous, optimised decision making”, Jurgens said.

While she talked up the use of automation in mining – referencing the experience she has in the automotive and aerospace industries – she admitted full automation across the BHP group was unlikely.

“This is because we automate equipment and processes where it provides the highest value,” she said, explaining that investment in technology competes against all of other projects in the BHP portfolio, “and alternative uses of cash, under BHP’s Capital Allocation Framework”.

To test this, the company has built proving grounds at two active mine sites (Eastern Ridge in Australia and Escondida in Chile) to trial new innovations in geology, extraction and processes, and “develop workforce capability so that our people are equipped for the rapid pace of change that lies ahead”, Jurgens said.

Just some of the new innovations Jurgens mentioned included the use of advanced geophysics modelling to reanalyse existing drilling data. This new approach led, in November last year, to the Oak Dam copper discovery, near its existing Olympic Dam operations in South Australia.

Recently, sensors were installed at the Escondida test grounds to prototype the use of real-time data to analyse the quality and grade of ores and inform, for example, whether to divert unprocessed ore for leaching, to concentrators or waste. Jurgens said: “The key to achieving this is using data collected through the sensors and combining it with proprietary algorithms. We then apply our knowledge of the ore body to optimise the processing methods. Once in production, we expect these to improve throughput performance.”

With access to more detailed data on extracted material, machine algorithms can automate decisions to identify and divert waste, which increases plant performance and reduces processing costs, she added.

New patented leaching technologies have, meanwhile, increased metal recoveries by 10-12% and shortened the processing time by 50%, according to Jurgens. “At Spence in Chile we increased copper recoveries by about 10% and helped offset grade decline through implementing the low-cost Spence Recovery Optimisation project,” she said. “The initiative improved heap leach kinetics which meant we could maximise utilisation of the leach pads and therefore use the full 200,000 t of tankhouse capacity.”

This breakthrough also informed the successful heap leach trial at Olympic Dam, which the company has just completed.

The company’s automation and innovation journey has already resulted in significant wins, according to Jurgens.
Equipment automation is creating more efficient, standardised and safer operations, she said:

  • Autonomous blast hole drills across BHP’s Western Australia Iron Ore assets have increased drill rates by 25%, and reduced monthly drill maintenance costs by over 40%;
  • Haulage automation at the Jimblebar operation, in the Pilbara, has reduced heavy vehicle safety incidents by 80%;
  • Machine learning is being applied to maintenance on trucks in iron ore and coal – to analyse component failure history;
  • At Yandi, haul truck maintenance analytics increased truck availability to above 90% and generated recurrent cost savings. Replicating these strategies to our trucks in energy coal in the Hunter Valley, BHP has also seen an increase in truck availability;
  • Automating key components of BHP’s rail network is supporting increased capacity, more reliable dispatch and improved maintenance outcomes;
  • In Western Australia, material density scanning and laser precision have delivered an additional 2.4 t of iron ore per car while reducing safety risks of overloading;
  • The automated rail network scheduling system, which controls over 10,000 ore cars and transports about 270 Mt/y of iron ore, is becoming more effective through self-learning algorithms, ensuring trains arrive at port, on-time, and;
  • LiDAR technologies are being used to automate the loading of ships that transport BHP’s product to customers around the world.

BHP awards Central Systems Mount Newman iron ore contract

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Resource Development Group’s Central Systems subsidiary says it has been awarded a contract by BHP to undertake works at the company’s Mount Newman iron ore mine in Western Australia.

The works, to be undertaken for BHP Iron Ore, together with a further recent project award from BHP (through its framework agreement with the company) and a smaller award from Fortescue Metals Group yield combined contract values of around A$14 million ($9.8 million), Central Systems said.

Central Systems is a multi-discipline construction and remedial services contractor delivering civil, SMPT and E&I construction services.

SL Mining ships first ‘Marampa Blue’ iron ore concentrate from Sierra Leone

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SL Mining, a wholly owned subsidiary of Gerald Group, has announced the first shipment of iron ore concentrate, branded ‘Marampa Blue’, set sail on MV Cooper from Freetown Port (Queen Elizabeth II) in Sierra Leone on June 16.

The loading of over 55,000 t of high grade >65% Fe concentrate was completed on June 16, sailing the same day. This maiden shipment will be delivered to customers in China, with a second shipment expected to leave soon on MV Ultralaz carrying around 62,000 t of concentrate.

Sierra Leone’s Minister of Mines and Minerals, Rado Yokie, said: “Today is a historic day. As Marampa Blue is a very high-grade ore, and coming from Sierra Leone, it sends a good signal to the world that this country is ready for business.

“It is a feather to Sierra Leone’s mining cap.”

Craig Dean, Chairman of Gerald Group and SL Mining, said: “This is a proud day and a key milestone for SL Mining, and for our employees and contractors who have been working on this complex project to restore production of iron ore at the Marampa mine, alongside local communities and the Government of Sierra Leone. I would like to thank everyone involved.”

He continued: “SL Mining forms an important strategic asset in Gerald Group’s global portfolio. Our goal is to make ‘Marampa Blue’ an internationally recognised premium grade iron ore brand. As we continue to build on our progress so far, to deliver sustainable and responsible mining in Marampa, we intend to expand the delivery of high-grade >65% iron ore concentrate to markets in Europe and Africa.”

Located in the Port Loko District, in the northern province of Sierra Leone, SL Mining is engaged in the exploration, development and production of ‘Marampa Blue’ concentrate. The company was awarded a renewable Large-Scale Mining Licence granted under the Mines and Minerals Act, 2009, in March 2017 for a term of 25 years.

The company said: “Together with Gerald Group’s international expertise in metals, finance, strategic investments and experienced management teams and employees, SL Mining aims to build a resilient and long-life iron ore mine in Sierra Leone and to expand operations by integrating mining, processing and rail and port logistics, alongside playing a responsible role in the economic and social stability of the Lunsar region.”

NextOre to ramp up bulk ore sorting sensor development with new funds

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NextOre says it has raised A$2 million ($1.35 million) in a private funding round primarily to ramp up manufacturing and sales of its flagship bulk ore sorting sensor system.

The company’s products apply magnetic resonance (MR) technology, used for decades in medical MRI machines, to deliver real-time information about ore that miners can use for decision making.

Copper-detecting MR Analysers have been installed globally at mines in Latin America and Australia, with more scheduled for installation this year. While NextOre is focusing initially on copper sorting applications, the MR technology is applicable to a list of other commodities including iron ore and gold, according to NextOre. Funds raised will be used to grow the company’s global footprint from its existing customer base, the company said.

The MR Analyser is the result of nearly 15 years of research and development carried out by CSIRO Minerals Resources. NextOre, a spinoff from CSIRO, is now a partnership between CSIRO and RFC Ambrian, with the two joined by Advisian Digital.

Chris Beal, CEO of NextOre, said: “With this technology, miners will be able to mine more intelligently. Miners have historically innovated by going bigger – bigger trucks, bigger processing facilities, bigger mines – they’ve been forced to do this because there hasn’t been a technology that would allow them to look at the rock while it’s being mined, see how much metal is in it, and then efficiently make a decision on whether to keep it or throw it away.”

He said the company’s technology will enable miners to produce more metal using “smaller, more efficient plants” that consume less electricity, water and chemicals in the process.

Beal continued: “This is truly disruptive technology for the mining space, and it’s brought about by a team at CSIRO with a world-class track record. This is the same group that was instrumental in developing XRF for the minerals industry in the 1960s and 1970s, who developed on-stream ash analysers in use across the coal industry, and who developed the cutting edge PhotonAssay technology that’s now replacing fire assay.”

Rio and Hitachi Rail STS celebrate AutoHaul achievements

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Rio Tinto and its lead technology partner on the AutoHaul™ project, Hitachi Rail STS, joined together today to celebrate the successful deployment of the world’s first automated heavy-haul long distance rail network.

AutoHaul trains, which deliver safety and productivity benefits for Rio Tinto’s iron ore business, have also firmly positioned Western Australia and its heavy-haul rail industry as a global leader in the joint development and application of rail technology, Rio said.

Today, 2.4 km long trains, monitored remotely from an operations centre in Perth, travel across a network of 1,700 km of track, delivering iron ore from 16 mines to ports in Dampier and Cape Lambert in Western Australia. These trains have now safely travelled more than 4.5 million kilometres autonomously since they were first deployed last year.

“This world-first was made possible by the close collaboration with project partners from Japan, US and Australia,” Rio said. “These include Hitachi Rail, Calibre, New York Air Brake, Wabtec and others who provided the necessary expertise, innovation and software to make AutoHaul a success. Several of these partners maintain a strong presence in Western Australia and have committed to continuing to invest locally.”

Rio Tinto Iron Ore Managing Director Rail, Port & Core Services, Ivan Vella, said: “The success of AutoHaul would not have been possible without the expertise, collaboration and dedication of teams within Rio Tinto and our numerous partners. I’d also like to commend our train driving workforce for their support and professionalism during the transition period.

“This project has cemented Western Australia as a leader in the heavy-haul rail industry and has attracted interest from around the world. The successful deployment of the world’s first heavy-haul long distance rail network demonstrates the potential for significant further improvement in such operations with others around the world looking to replicate.”

Western Australia Minister for Mines and Petroleum Bill Johnston, who also joined in with the celebrations, said the AutoHaul project is a world-first and an example of the strength of Western Australia’s resources industry, which continues to excel in technology and innovation.

“I’d like to congratulate Rio Tinto, Hitachi and all the other project partners for their hard work and dedication over the past decade to delivering this project, which really cements our State as a global leader in rail technology,” he said.

“AutoHaul has brought the rail freight industry in this country into the 21st century and is rightfully the subject of global interest. I’d also like to mention that the development of the world’s biggest robot is such a success because of the contribution from Western Australia’s skilled engineers and innovative workers.”

Michele Fracchiolla, President Americas and APAC Business Unit, Hitachi Rail STS, said: “Hitachi Rail STS is extremely proud of the lead technical and delivery role it played in enabling the deployment of the world’s first fully-autonomous heavy haul, long distance rail operation.

“This is a new technical benchmark for the freight rail industry worldwide and the result of a long-established and collaborative partnership between Rio Tinto and Hitachi Rail STS. Now that the trains are running autonomously, the levels of continuous improvement that can be achieved in safety, operational efficiency and sustainability are endless, and we look forward to continuing to collaborate with Rio Tinto to enhance the AutoHaul system.”

Early results from the deployment of the $940 million AutoHaul program highlight the technology’s potential to improve productivity, increase flexibility and reduce bottlenecks in Rio Tinto’s iron ore system, the miner said. “Rio Tinto’s Pilbara operations are being transformed to flex in line with market conditions and AutoHaul is a vital component in increasing flexibility and safety in the system.”

Rio operates about 200 locomotives on what is the largest privately-owned rail network in Australia and, in December, the deployment of software on Rio Tinto’s locomotives was completed.

“Autonomous trains improve safety through reduced risk at level crossings and automated responses to speed restrictions and alarms,” Rio says. “AutoHaul also removes the need for almost 1.5 million km of road travel per year previously required to transport drivers to and from trains mid-journey.”

All locomotives are fitted with AutoHaul safety systems including collision detection systems, automatic train protection technology – which controls train speed to ensure adherence to speed limits – and an on-board video camera to record the front view from the train.

The average return distance of these trains is about 800 km with the average journey cycle, including loading and dumping, taking about 40 hours. All public rail crossings on the network are fitted with CCTV cameras and have been upgraded to the highest safety standards, according to Rio.

Rio Tinto provides funding for Australia’s first automation course

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Rio Tinto has welcomed the introduction of Australia’s first nationally recognised qualifications in automation at the South Metropolitan TAFE Technical and Further Education institution, in Fremantle, Western Australia.

The course will provide workers in the resources sector and others looking to join it, with the skills and knowledge needed to succeed in an increasingly science, technology, engineering and mathematics-based industry, the miner said.

“The new certificate courses, the first to provide education pathways to jobs in the area of autonomous operations, are the result of an historic collaboration between Western Australia’s resources sector including Rio Tinto, South Metropolitan TAFE and the Western Australian Government,” Rio said.

The courses have been developed over the last year and are now accredited by the Training Accreditation Council (WA), with Rio contributing up to A$2 million ($1.37 million) to development of the new qualifications.

A Certificate II in Autonomous Workplace Operations will be introduced to TAFE curriculum and piloted by a group of Rio Tinto’s iron ore workforce from August, Rio said. It will also be piloted for Year 11 and 12 students in selected high schools across the state.

A Working Effectively in an Automated Workplace micro-credential course for trade-qualified, apprentices and technicians will also be available, according to Rio, which said a Certificate IV in Remote Centre Operations was also in development.

Rio Tinto Iron Ore Chief Executive, Chris Salisbury (pictured furthest right), said: “Australia’s workforce is in the midst of an important shift, as innovation and technology create new business models across all industries. Mining has moved to become a genuine leader in innovative technology and we recognise the critical need to provide effective education programmes and opportunities to help our people succeed in this new era.

“We believe these courses will make a long-lasting and positive difference to the lives of many Australians. It will help ensure our industry remains globally competitive and is a leader in innovative technology.”

BHP looking at wide-scale haul truck automation in WA iron ore, Queensland coal

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BHP is currently weighing up a project to automate around 500 haul trucks across its Western Australia Iron Ore and Queensland Coal sites, according to a strategy briefing presentation delivered by Chief Financial Officer, Peter Beaven.

Under a list of “projects in feasibility” in the appendices of Beaven’s presentation, the mining major detailed a staged haul truck automation plan that could cost less than $800 million to deliver, with the first of several investment decisions expected this year.

BHP already has automated haul trucks running around its Jimblebar iron ore mine in Western Australia, with the operation going fully autonomous at the end of 2017, but it has not rolled out the autonomous haulage systems (AHS) for haulage across its iron ore portfolio like peers Rio Tinto and Fortescue Metals Group. This latest project, on top of what CEO Andrew Mackenzie said back in February, hints it could do so in the future.

In terms of the delivery of the project, BHP said it was estimating a staged rollout between 2020 and 2023, with AHS decisions made on a “site by site” basis.

NRW’s new RCR Mining Technologies business captures Rio Tinto Koodaideri contract

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RCR Mining Technologies has continued its strong start under the guidance of new owner NRW Holdings, winning a “significant” original equipment manufacturer (OEM) equipment package from Rio Tinto for the miner’s Koodaideri iron ore project in the Pilbara of Western Australia.

The new order is for the supply of three large apron feeders, 11 slide gates and two belt feeders, to a combined value in excess of A$18 million ($12.2 million), NRW said.

NRW signed a deal with RCR Tomlinson’s administrators, back in January, to acquire the mining and heat treatment businesses of RCR for A$10 million in cash. Back then, NRW said the purchase of the international OEM and innovative materials handling designer would allow the company to provide incremental services, in line with its strategic objectives, to several core clients common to both NRW and the RCR businesses.

Ian Gibbs, Executive General Manager of RCRMT, said: “RCRMT has a long and proud history of supplying major equipment to Rio Tinto and the WA mining industry.

“Since transitioning to NRW ownership, we have been able to secure orders for all the current major iron ore projects to retain our status as the market leader in the design and manufacture of apron and belt feeders, which is an exciting achievement against a highly regarded multinational supply market.”

NRW CEO and Managing Director, Jules Pemberton, said: “The award represents further validation of our acquisition approach to provide clients with a broader service offering. I’d also like to acknowledge Ian Gibbs and his team who have worked hard to secure this work which will further support activity at both the Bunbury and Welshpool sites.”

NRW’s businesses have already won two contracts on the Koodaideri project – one for rail formation work and another for bulk earthworks.

NRW wins second Koodaideri iron ore contract from Rio Tinto

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NRW Holdings says it has been awarded the Koodaideri Rail Formation South Earthworks contract by Rio Tinto.

The project scope includes the construction of about 73 km of new rail embankment, a new mine access road and associated road works along the Koodaideri rail alignment, NRW said.

The project value is in excess of A$137 million ($92.9 million) and is expected to have a duration of some 70 weeks with site works commencing in August. At its peak, there will be over 300 site-based personnel required for the project, according to NRW.

NRW’s Chief Executive Officer, Jules Pemberton, said: “NRW has a long history of civil construction expertise in the Pilbara and has been involved in the successful delivery of numerous greenfield and brownfield projects for Rio Tinto since 2002.

“Since then, NRW has also constructed more than 900 km of rail formation across the Pilbara providing work for thousands of Australians and supporting local industries, traditional landowners and suppliers.”

He added that the contract follows the recent award of the Koodaideri plant site earthworks agreement where construction has already commenced (pictured).

Construction on Koodaideri Phase 1 started this year with first production expected in late 2021. Once complete, the $2.6 billion mine will have an annual capacity of 43 Mt, underpinning production of the company’s flagship iron ore product, Pilbara Blend.

In addition to mine infrastructure and the accommodation camp, an airport and mine support facilities will be built. Throughout the construction period, Rio expects to employ over 2,000 people with 600 permanent roles created once the mine is operational.

Rio Tinto Iron Ore Chief Executive, Chris Salisbury, has previously said that the company wants to make Koodaideri the “most technology-enabled and innovative mine in our Pilbara iron ore network”.

Vale plans significant investment in dry processing technologies, Reuters says

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Vale reportedly plans to invest $2.5 billion on, predominantly, dry processing technology as it looks to draw a line under the recent tailings dam failures that have occurred at its Brazil operations.

Reuters, citing emailed responses from Vale’s Director of Ferrous Planning and Development, Fabiano Carvalho Filho, said the Brazil-based miner would spend the amount over the next five years, with the funds mainly used to convert Vale’s Carajas iron ore mining operations in the northern portion of the country to 100% dry tailings facilities.

The news came on the same day the company released its March quarter financial results, which saw the miner report a $1.6 billion loss on the back of the recent Brumadinho dam rupture.

The company is looking to increase its dry processing operations to 70% of its overall iron ore output by the end of 2023, from 60% currently, according to the Reuters report.

Of the 17 processing lines of Plant 1 at Carajas, 11 are already using dry technologies and the remaining six wet lines will be converted by 2022, Carvalho Filho reportedly said.

In addition, the investments will also go towards two projects in Minas Gerais – one for a new iron ore processing complex, with the other focused on restarting a previously operational mine – the news agency said.

The dry processing spend is part of an existing program under which Vale has invested almost $17.5 billion over the last decade, Carvalho Filho told Reuters, adding that the investments were not directly tied to the recent tailings dam spills at the Brumadinho and Mariana dams.