Tag Archives: Vale

Vale and Vivo sign 4G/LTE deal to bolster mine site automation

Automation, Communications in mining, IoT, Mine operation news, Mining equipment, Mining services, Steel and iron ore, , , , , , , , ,

Vale says it has signed an agreement with Vivo (Telefônica Brasil) to implement a private 4G/LTE network at its operations in Brazil.

The network will help the miner optimise its use of autonomous equipment, which requires a wide coverage area and high traffic capacity for a significant amount of data. Almost R$21 million ($5 million) will be invested in this project, Vale said.

This will make Vale and Vivo the first companies to deploy a private LTE network with these characteristics in the country, according to Vale.

From the first half of 2020, the network will be available at Carajás (Pará) mine, where three autonomous drills are already operating and autonomous trucks will be adopted soon. Then, this innovation will be applied at Brucutu mine (pictured), in São Gonçalo do Rio Abaixo (Minas Gerais), where 13 autonomous trucks operate. This network also has the potential to be used to connect dam monitoring instruments, the company said.

Vale said of the network: “It will boost Vale’s autonomous vehicles program, which aims to increase safety by removing employees from the risk area. Autonomous equipment also generates operational efficiency and sustainability gains increasing equipment useful life by almost 15% and reducing fuel consumption and maintenance costs by almost 10%.”

Vivo’s solution was chosen due to its reliability and experience in private LTE networks, Vale said. Safety and the possibility of converging different types of traffic on the same network – such as data, voice, and video – were also considered. At Brucutu mine, for example, the autonomous trucks currently operating on a WiMax network, which will be migrated to the new network in the future.

Gustavo Vieira, Vale’s IT director, said: “In addition to the benefits regarding data volume and coverage, the use of LTE is also an important investment due to it is scalability; all mobile phone technology development must comply with this standard from now on. Fourth generation is already being used; thus, technology upgrades will cost less than those for technologies that are not commonly used.”

Alex Salgado, Vivo B2B vice president, said a private LTE solution meets specific needs of businesses while meeting the requirements of mission-critical applications that demand “high safety, mobility in production lines, free-interference spectrum, and traffic prioritisation, as well as connecting a high volume of IoT devices in an open and widely available ecosystem”.

The partnership will enable Vale to use Vivo’s services in these regions. Vivo will also provide 4G coverage, which will help communication among employees of the mine operations.

In Latin America, this partnership model is only currently available in Chile, which is being tested. Vale also uses private 4G/LTE networks in its operations in Canada and Malaysia, it said.

Komatsu becomes automation FrontRunner at Vale’s Carajas iron ore mine

Automation, IoT, Mine operation news, Mining equipment, Mining services, Steel and iron ore, , , , ,

Komatsu says it has won a contract that could see it deploy up to 37 930E ultra-class electrical dump trucks as part of an Autonomous Haulage System (AHS) at Vale’s Carajás iron mine, in Pará, Brazil.

The mining OEM says the deployment will help support Vale in its drive to leverage technology to reduce the impact on the environment and enhance health, safety and operational efficiency.

The news follows Vale, last month, announcing it would start trialling autonomous haulage at Carajás, following a successful deployment at its Brucutu iron ore mine in Minas Gerais. This would see the company run both autonomous and manned trucks at the operation, the world’s largest open-pit iron ore mine, the miner said.

Powered by Komatsu’s AHS FrontRunner technology, the initial deployment is expected to start this month, according to Komatsu, with the goal of operating 37 trucks autonomously by 2024.

To support the company’s transition to autonomy, Komatsu opened an AHS training centre (pictured) near the mine in August, which “provides operations and maintenance training to upskill local people on the new technologies being introduced at the mine, in support of human resource development”, Komatsu said.

Masayuki Moriyama, President of Komatsu’s Mining Business Division, said: “We are honoured to be part of the ongoing wave of technological innovation at Carajás, supporting Vale’s commitment to sustainability and helping make the mine a reference in environmental terms. We look forward to our continued work together to support the skill growth of local workers and ensure a successful deployment that is designed to increase the safety and productivity of this operation.”

With this latest deployment, Komatsu continues to expand its AHS business in South America. Komatsu says its customers, globally, are now leveraging AHS at 10 mine sites in four countries.

Vale and BHP cleared for Samarco iron ore restart

Environmental, Mine operation news, Mineral processing, Mineral project development, Mining equipment, Mining policy, Mining safety, Steel and iron ore, Water management, , , , , , ,

Vale says its joint venture Samarco Mineração SA division has been given clearance to restart operating activities at its Germano Complex, in Minas Gerais, Brazil, some four years after a dam collapse shuttered the operation.

Vale said the division, owned 50:50 by it and BHP, had received the Corrective Operation License (LOC) for its operating activities in the complex, adding that the licence was approved by the Mining Activities Chamber (CMI) of the State Council for Environmental Policy (COPAM).

Following this authorisation, Samarco has now obtained all environmental licences required to restart its operations.

Samarco is due to restart its operations using dry stacking technologies that, Vale says, will reduce the risk of such an accident happening again.

“For this reason, the operational restart of iron ore extraction and beneficiation plants in Germano and the pelletisation plant in the Ubu Complex, located in Anchieta, state of Espírito Santo, will only occur after the implementation of a filtration system, which construction is expected to take around 12 months,” Vale said. During this period, Samarco will continue operational readiness activities including equipment maintenance.

Following the implementation of the filtration process, and subject to shareholder approval, Samarco currently expects to restart its operations around the end of 2020, Vale says.

With the filtration process, Samarco expects to be able to substantially dewater sand tailings, which represents 80% of total tailings by volume, and stack these filtered tailings safely. The remaining 20% of tailings will be deposited in Alegria Sul pit, a bedrock self-contained structure, to increase safety. Alegria Sul pit preparation works began in October 2018 and were concluded this month.

Following changes to the environmental and regulatory frameworks for mining in Brazil in 2019, Samarco adjusted its mining and tailings disposal assumptions, including a reduction in the capacity of the Alegria Sul pit, so tailings would be confined to the self-contained area. This also led to a reduction in the capacity to store filtered tailings due to the classification of the Germano pit as a dam, which will now be decommissioned in accordance with the regulation.

The above-mentioned changes to regulatory and tailings disposal assumptions materially impact the expected ramp up of Samarco operations given a range of factors, including but not limited to the completion of additional licensing processes and the development of additional tailings disposal sites, the company said.

Samarco expects to be able to restart operations through one concentrator and produce some 7-8 Mt/y following the installation of the filtration technology.

A second concentrator could be restarted in around six years to reach a range production of 14-16 Mt/y, while the restart of the third concentrator could happen in around 10 years after the issuance of the LOC, when Samarco expects to reach annual production volume in a range of approximately 22-24 Mt/y, it said.

Autonomous haul trucks coming to Vale’s Carajás iron ore mine

Automation, Mine operation news, Mining equipment, Mining services, Steel and iron ore, , , , , , , , ,

Vale says it is to start trialling autonomous haulage at its Carajás mine in Pará, Brazil, following a successful deployment at its Brucutu iron ore mine in Minas Gerais.

The company plans to run both autonomous and manned trucks at the operation, the world’s largest open-pit iron ore mine, it said.

Completion of the autonomous testing phase is planned to June 2020, when the autonomous vehicles begin to operate. The number of autonomous vehicles will increase year by year and, depending on the test results, may reach 37 in 2024.

This year, the company’s Brucutu iron ore mine began operating exclusively with autonomous haul trucks. Thirteen Caterpillar 240 ton (218 t) 793F CMD fully autonomous trucks, managed using the Cat autonomous haulage system, Command for hauling, part of its MineStar™ suite of technology products, are now running, after the company equipped seven trucks with this technology in 2018.

Combined with a staff development and training plan at Carajás, the autonomous innovation aims to increase the safety of operations, in addition to generating environmental benefits and a competitive edge, Vale said.

Two autonomous trucks are expected to start the testing phase in an isolated area of Carajás mine by the end of November, but training of the operators began in October. In addition to autonomous haulage, three autonomous drills started operating in the mine last year, Vale said.

Vale explained: “In an autonomous operation, trucks are controlled by computer systems, GPS, radar, and artificial intelligence, and monitored by operators in control rooms located miles away from the operations, providing more safety for the activity. When risks are detected, the equipment shuts down until the path is cleared. Sensors of the safety system can detect larger objects, such as large rocks and other trucks, as well as people near the roads.”

Compared with conventional transport, productivity of the autonomous operation system is higher, according to Vale. “Based on the technology market data, Vale expects to increase the useful life of equipment by 15%. Fuel consumption and maintenance costs are also estimated to be reduced by 10%, and the average speed for trucks will increase,” it said.

Autonomous operation also brings important environmental benefits. The reduced consumption of fuel by the machines results in a lower volume of CO2 and particulate matter emissions and less waste, such as parts, tyres and lubricants.

According to Antonio Padovezi, North Corridor Director for Vale, in addition to the safety factor, the use of autonomous equipment in Carajás will ensure greater sustainability for Brazilian mining. “It is another breakthrough with great economic, environmental, and social gains. It reduces employees’ exposure to risks, increases competitiveness, reduces emission of polluting gases and promotes professional training and development, following a natural trend experienced today in the market worldwide,” Padovezi said.

Implementation of the autonomous operation is combined with a staff development plan, which includes creation of a training centre in the city of Parauapebas by the supplying company. The plan is along the lines of Brucutu, where all conventional truck operators will be reassigned to other activities. At Brucutu, part of the team is managing and controlling the autonomous equipment while another part is taking on new “automation-related tasks”. Some employees have been reallocated to other areas.

Vale is deploying a digital transformation program as part of its Industry 4.0 developments.

This has allowed the company to increase productivity, operational efficiency, and safety, in addition to improving its financial performance and driving innovation, the company said.

Technological innovations developed by the company include the Internet of Things, artificial intelligence, mobile applications, robotisation, and autonomous equipment (such as trucks and drills).

The program will also support the strategic pillars presented by Vale this year – improve the company’s operational approach to safety and operational excellence as well as bring a positive impact to society, becoming a development facilitator for the areas in which it operates while promoting a safer and more sustainable industry, Vale said.

Why the Pilbara leads the way in haul truck automation

Automation, Communications in mining, Equipment maintenance, IoT, Mining equipment, Mining maintenance, Mining safety, Mining services, Mining software, Steel and iron ore, , , , , , , , , , , , , , , , , , , , ,

A presentation at last month’s AusIMM Iron Ore 2019 Conference, in Perth, Western Australia, made it clear that the state’s steel raw material miners are leading the way when it comes to applying autonomous haulage systems (AHS) in open-pit mining.

Richard Price, Manager of Projects for Mining Technicians Group Australia (MTGA), has been involved in this technology space for a number of years, having initially witnessed an automation trial involving two trucks at Alcoa’s Willowdale bauxite mine, in Pinjarra, all the way back in 1994.

At the conference, his paper set out the state of play in Pilbara when it comes to AHS, explaining: the first commercial scale trial in iron ore took place at Rio Tinto’s West Angelas operation in 2008, there are two original equipment manufacturer (OEM) AHS operating in the Pilbara – Caterpillar Command for Hauling and the Komatsu FrontRunner – and the three major iron ore miners (Rio Tinto, BHP and Fortescue Metals Group (FMG)) were leaders when it comes to using autonomous trucks.

FMG is the largest operator of autonomous trucks in the Pilbara – making it effectively the largest in the world – with 128 at the end of June (according to the miner’s June quarter results). Rio, meanwhile, had 96 up and running, with BHP having a total of 50, as per publicly released data.

“FMG has plans to automate all of their trucks, including the first non-OEM trucks on an alternate OEM system,” Price said, with him adding that the company has now automated a number of Komatsu 930E vehicles using the Caterpillar Command for Hauling AHS: a world first.

“Additionally, FMG is also operating multiple Caterpillar OEM trucks onsite, in another world first having three classes of truck on the one system at the same site (789D, 793F and 930E),” he said.

While Komatsu, historically, has more time in the field with commercial autonomous applications – it surpassed 2 billion tons of autonomous haulage in November – than Caterpillar, the Illinois-based OEM has received more global success, being able to point to AHS deployments in the oil sands of Canada, the coal mines of British Columbia and Vale’s iron ore operations in Brazil.

“With regards to the on-board AHS componentry, the Komatsu system is somewhat simpler than the Caterpillar system,” Price said. “The significant difference is that Caterpillar utilises a LiDAR (Velodyne 64-layer), with RADAR, whilst the Komatsu system uses RADAR only. However there are additional differences in the on-board controls – the Caterpillar system is known for having more significant vehicle on-board computing power, versus the Komatsu system which places greater reliance on the wireless network whilst performing most of the calculations on the server side.”

Even with the on-board computing power of Caterpillar’s system, the performance of these trucks only tends to be as good as the communications infrastructure they are tied to.

Presently, only the Komatsu system has announced successful trials of using 4G Long Term Evolution (LTE) network technology as the communications system which commands the trucks, with the Caterpillar system presently reliant on wireless networking technology, “of which all current implementations rely upon (globally)”, Price said.

One of the issues with such technologies is the trucks stop driving, or operating, if they lose communications, with the trucks communicating, via this network, their position to each other and directional heading and speed.

The way the trucks re-start their driving routine is, at present, via manual visual inspection, which can be a process that takes time.

And, according to Price, a significant problematic issue with trucks stopping driving across all the Pilbara sites is the triggering of a false positive object detection.

“These are often referred to as ‘ODs’ on the various sites which utilise AHS,” Price said, with many operators blaming undulations in the road, pot holes, or small rocks for these occurrences.

Again, manual inspection is normally required as part of an operation’s procedure for re-starting the autonomous trucks.

Out in front

Despite these communication and OD problems, Western Australia still leads the way when it comes to automation with the Pilbara hosting around 75% of the circa-370 trucks operating globally.
What is the reason for this? Price highlighted five bullet points in his speech:

  • High cost of operators – annual salaries for truck operations are, in general, over A$100,000 ($68,882);
  • Ease of implementation – “the Pilbara miners generally have open ground, and have had an opportunity to trial the technology in a dedicated work area prior to a site-wide implementation,” Price said, adding that the topography has also made it simpler to install the required communications systems;
  • Scale and longevity of operations – Previously cost-benefit analysis of AHS included an approximate cutoff point of 12 Mt/y total material movement, which equates to six to eight off-highway haul trucks, Price said. All operations exceed this, as well as having long mine lives;
  • The fact that all the sites which have presently deployed AHS are currently fly-in/fly-out mines which transport the staff to site from their point-of-hire, and;
  • Experience of technology and processes in the Pilbara – miners in the region have long-term familiarity with fleet management systems and technology adoption.

Price said: “Western Australia does not necessarily have any unique or special advantage, however, it has made sense for Pilbara iron ore operators to implement AHS for the reasons outlined above.”

The benefits

MTGA’s Price pointed to several quotes from the mining companies themselves to explain the benefits of automation.

Rio Tinto, in 2018, said: “On average, each autonomous truck was estimated to have operated about 700 hours more than conventional haul trucks during 2017 and around 15% lower load and haul unit costs.”

FMG, in the same year, said it was seeing 32% productivity improvements with autonomous trucking.

Vale, meanwhile, previously told Mining.com: “The adoption of autonomous trucks at Brucutu (iron ore mine, in Brazil) is expected to reduce fuel consumption by more than 10%. Maintenance costs, in turn, should fall by another 10% and off-road truck tyres, which cost up to $40,000, are expected to have 25% lower wear. The overall gains translate into a 15% increase in equipment life, reducing investments in new acquisitions and reducing carbon dioxide emissions at the same time.”

Price said: “There are clearly differing metrics being monitored by these three operators at present. However, irrespective of the metrics monitored, AHS obviously has had a significant impact on the operating environment.

“It appears that the increase in utilisation of the autonomous trucks is the most significant benefit that they provide. The decrease in costs is also helpful, but the increase in predictability of the truck fleet is what drives the actual benefit.

“A number of materially measurable but difficult to quantify benefits exist from the rendering of trucks autonomous as well. These include less maintenance, better tyre wear (or increased tyre life), reduced fuel costs (for the same tonnage output) and better overall truck performance.”

For instance, Komatsu has previously said the optimised automatic controls of AHS reduce sudden acceleration and abrupt steering, resulting in a 40% improvement in tyre life compared with conventional operations.

And, of course, there are the numerous safety benefits that come with using automated haul trucks.

The future

While Price believes that mining will continue to become more autonomous, he said the mine of the future was likely to involve the automatic distribution of data files that trucks would work off without human involvement.

“For now, technologies such as LTE for better communications network coverage, the use of drones, long-range cameras or other autonomous ground vehicles to conduct the manual visual inspection and other autonomous equipment will be implemented,” he said.

He added: “It is likely that there will be a continuum of development over the next 20-30 years.

“Mining companies and OEMs will have a lot to learn from automotive vehicle automation. Obviously, there are more cars on the roads than there are off-highway haulage trucks on minesites. Therefore the general costs of automation kits will come down, and there will be an opportunity to conduct operations in a GPS-denied environment.

“Already, the costs of select items such as the LiDAR utilised by the Caterpillar system have halved in price since they were used a decade ago. Solid state LiDARs, as opposed to rotational, are being implemented in the automotive industry already.”

He pointed to MINExpo 2016, in Las Vegas, when Komatsu showcased its cabless, driverless truck as one development to look out for.

“It is predicted that in the longer-term future (ie 20-30 years’ time), cabs will be an additional and expensive option to add onto an off-highway heavy haulage truck,” he said.

“Whilst the future is autonomous, it will be technologically more advanced than the present technologies,” he concluded, adding that, given its head start, one would expect the Pilbara iron ore industry to deploy these technologies first.

MTGA’s Richard Price has also written a business case study on AHS, published by AusIMM – www.ausimmbulletin.com/feature/autonomous-haulage-systems-the-business-case/ – and, in partnership with Whittle Consulting’s Nick Redwood, put together an Autonomous Haulage Systems Financial Model Assessment – www.whittleconsulting.com.au/wp-content/uploads/2017/10/Autonomous-Haulage-Study-Report-Rev-F.pdf

Vale’s Vargem Grande iron ore complex slowly coming back to life

Environmental, Mine operation news, Steel and iron ore, Water management, , , , , , , , , , , ,

Vale says Brazil’s National Mining Agency (Agência Nacional de Mineração – ANM) has authorised the partial resumption of dry processing operations at the Vargem Grande Complex in Minas Gerais.

The Vargem complex is comprised of three operating mines — Capitão do Mato, Tamanduá and Abóboras — and produces a mixture of fines, lump and concentrate products for the seaborne export market and the Vargem Grande pellet plant.

Vale said all operations of the complex were suspended by ANM on February 20, to prevent “occasional triggers” that could affect tailings dam stability as a result of ongoing activities at the complex.

Vargem was one of several operations that were suspended after one of Vale’s tailings dams ruptured at its Córrego do Feijão mine (Paraopeba complex) on January 25, 2019.

The decision will enable the partial resumption of dry processing operations at the complex within 24 hours, totalling about 5 Mt of additional production in 2019, thus increasing the supply of Brazilian Blend Fines, Vale said.

The Brazil-based miner reaffirmed its 2019 iron ore and pellets sales guidance of 307-332 Mt, as per previous announcements.

The Electric Mine charges on to Sweden

Environmental, Mining equipment, Mining events, Mining services, Power supply for mines, Sustainable mining, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

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!

Sagamok Anishnawbek First Nation takes over ore/waste rock transport at Vale Totten

Base metals, Mine operation news, Mining equipment, Mining services, Precious metals, , , , ,

Vale Canada has awarded Sagamok Anishnawbek’s Z’gamok Construction company the ore and waste rock contract at its Totten copper-nickel-precious metals mine, in Sudbury, Ontario.

The agreement, which came into effect on June 1, will enable greater control over the contract, create more job opportunities and revenue for Sagamok Anishnawbek, the First Nation’s Chief, Nelson Toulouse, said.

Back in 2006, the First Nation embarked on a process to negotiate an Impact and Benefits Agreement (IBA) with Vale Canada for the Totten mine. The IBA negotiations process was completed with the signing of an IBA on June 22, 2012.

“Since that time, the IBA has created jobs in underground mining, trucking and haulage, janitorial and snow removal services,” Toulouse said.

“Strong partnerships were created that would provide Sagamok with an opportunity to build capacity and training,” he added. One of those partnerships was with TBell Transport in Nairn, Ontario. Sagamok and TBell Transport entered into an agreement to have TBell undertake the ore and waste rock contract on its behalf from June 1, 2014 to May 31, 2019. The agreement also described an understanding that Sagamok would take control of this when it expired.

As a result, on June 1, the Sagamok Anishnawbek officially took over the ore and waste rock contract at Totten.

Toulouse continued: “In order to ensure success in completing our new responsibilities, Sagamok Council created a new company that will undertake the ore and waste rock haulage contract.” This led to the inception of Z’gamok Construction, a company wholly-owned by Sagamok Anishnawbek, which has the sole responsibility to complete the terms and conditions in the contract.

“This will mean more employment for our community members; therefore, require more equipment and trucks to complete the terms and conditions of the contract. Z’gamok Construction LP will also have the mandate to pursue other contract opportunities that flow from the IBA,” Toulouse said.

Vale exploring dry stacking/magnetic separation to eradicate tailings dams

Comminution of minerals, Environmental, Mine operation news, Mineral processing, Mining equipment, Steel and iron ore, Sustainable mining, Water management, , , , , , , ,

Vale has confirmed a Reuters news report from last week stating that it would spend an additional BRL11 billion ($2.5 billion) on dry iron ore processing over the next five years.

The company said it has invested nearly BRL66 billion installing and expanding the use of dry processing, using natural moisture, in iron ore production in its operations in Brazil over the last 10 years and it would carry on this trend.

“By not using water in the process, no tailings are generated and, therefore, there is no need for dams,” the company said, added that about 60% of Vale’s production today is dry, and the goal is to reach 70% in the next five years.

Dry processing is used in the mines of Carajás, Serra Leste and the S11D Eliezer Batista Complex (pictured), in Pará, Brazil, and in several plants in Minas Gerais. In Pará, in the Northern System, about 80%, of the almost 200 Mt produced in 2018 was through dry processing. The main Carajás plant, Plant 1, is in the process of conversion to natural moisture: of the 17 plant processing lines, 11 are already dry and the remaining six wet lines will be converted by 2022.

Serra Leste’s treatment plants, in Curionópolis, and S11D, in Canaã dos Carajás, also do not use water in ore treatment, according to Vale. In S11D, for example, the use dry processing, using natural humidity, reduces water consumption by 93% when compared to conventional iron ore production.

In Minas Gerais, dry processing increased from 20%, in 2016, to 32%, in 2018. Today, this type of processing is present in several units, such as Brucutu, Alegria, Fábrica Nova, Fazendão, Abóboras, Mutuca, Pica and Fábrica. “Over the following years, the objective is to roll it out at other locations in Minas Gerais, such as the Apolo and Capanema projects, which are currently under environmental licensing,” the company said.

Vale said: “Dry processing is linked to the quality of the iron ore extracted from mining. In Carajás, as the iron content is already high (above 64% Fe), the ore is only crushed and sieved, so it can be classified by size (granulometry).

“In Minas Gerais, the average content is 40% iron, contained in rocks known as itabirites. To increase the content, the ore is concentrated by means of wet processing (with water). The tailings, composed basically of silica, are deposited with water in the dams. The high-grade ore resulting from the process can then be transformed into pellets at the pelletising plants, increasing the added value of the product.”

The mills that operate dry processing in Minas Gerais depend on the availability of ore with higher levels – about 60% Fe – still found in some mines in the state. “In order to achieve the necessary quality, and be incorporated into Vale’s product portfolio, it is necessary to blend with Carajás ores, carried out at Vale’s distribution centres in China and Malaysia. The process allows Vale to offer excellent quality ore which can be tailored to meet the needs of our clients,” the company said.

The blending of the product with natural moisture does not eliminate the need for humid concentration of the low-grade itabirite used in the production of pellets. However, to reduce the use of dams, Vale plans to invest approximately BRL 1.5 billion on dry stacking technology in Minas Gerais between 2020 and 2023. This technique filters and reuses waste water and allows the latter to be stored in piles, thus reducing the use of dams. The goal is to achieve up to 70% of the waste disposed in the coming years, but success depends on the improvement of technology and external issues, such as environmental licences, Vale said.

“Today, Vale doesn’t have a dry stacking operation that can deal with the production quantity especially in a region with high rainfall indices, such as the Ferriferous four-side, in Minas Gerais. The available dry stacking technology is used on a small scale around the world – up to 10,000 t/d of tailings produced – in desert regions or with low rainfall. In Minas Gerais, Vale’s tailings production quantity is, on average, 50,000 t/d per unit,” Vale said. In 2011, the company developed a pilot project on the Cianita stack in Vargem Grande, after an investment of BRL100 million.

The studies were completed in 2018 and the technicians evaluated the geotechnical behaviour of piles under rainy conditions. The next tests will be applied on an industrial scale at the Pico mine in the municipality of Itabirito, Vale said.

“Another solution that has been studied is the dry magnetic concentration of iron ore based on the innovative technology developed by New Steel, a company acquired by Vale at the end of 2018 for BRL1.9 billion,” Vale said. “The dry magnetic concentration eliminates the use of water in the concentration process of the low-grade ore, which disposes the waste generated in sterile piles, similar to what happens in dry stacking. This technology, however, is in the industrial development stage and is not yet ready to be applied on a large scale.”

Vale plans significant investment in dry processing technologies, Reuters says

Environmental, Mine operation news, Mineral processing, Mining equipment, Steel and iron ore, Sustainable mining, Water management, , , , , , , , , ,

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.