Tag Archives: Iron ore

Metso Outotec to supply Planet Positive Vertimills to iron ore project in South America

Comminution of minerals, Mineral processing, Mining equipment, Mining services, Steel and iron ore, , , , ,

Metso Outotec says it has been awarded a contract to deliver sustainable grinding technology to an iron ore project producing premium pellet feed in South America.

The total value of the order exceeds €10 million ($10.2 million), the company says.

The OEM’s scope of delivery consists of the engineering, manufacturing and supply of four Vertimill® vertical grinding mills. In addition, Metso Outotec will provide installation and commissioning advisory services. The Planet Positive Vertimill grinding mills are expected to save more than 30% of the installed power compared with a conventional ball mill circuit, the company says.

“We are pleased that our customer has chosen the industry-leading Vertimill technology,” Christoph Hoetzel, Head of the Grinding business line at Metso Outotec, says. “The regrinding circuit will enable energy-efficient grinding combined with low operating and life-cycle costs.”

Rio Tinto and partners incorporate new entity to progress Simandou iron ore plans

Mineral project development, Steel and iron ore, , , , , , , ,

The government of the Republic of Guinea, Winning Consortium Simandou (WCS) and Rio Tinto Simfer have incorporated the La Compagnie du TransGuinéen (The TransGuinean Company) to further progress plans to co-develop the multi-purpose and multi-user infrastructure for the Simandou iron ore project, in the country.

The joint venture incorporation is a significant milestone in implementation of the framework agreement signed among the parties on March 25, 2022. It has been fully registered and established in Guinea and is intended, following negotiation of definitive tripartite entity arrangements, the company will be the central structure for the co-development of the rail and the port components of the Simandou iron ore development project.

Following the incorporation of the joint venture, the parties will now work on next steps including shareholding agreement, finalising cost estimates and funding, and securing all necessary approvals and other permits and agreements required to progress the co-development of infrastructure.

WCS and Rio Tinto Simfer are committed to co-develop the rail and port infrastructures in line with internationally recognised environmental, social and governance standards, Rio says. This milestone paves the way to progress the shareholder agreement, and secure necessary financing to construct a strategic corridor with more than 600 km of rail infrastructure extending from south to south-west of the Republic of Guinea, as well as port infrastructure in the Forécariah prefecture in Maritime Guinea.

The infrastructure constitutes the backbone of the Simandou project, that presents a significant opportunity for the economic growth of the Republic of Guinea, in addition to the mining activities it will support, Rio says.

Sun Xiushun, Chairman of the Winning Consortium, said: “We are extremely grateful to our joint venture partners, the Guinean government and Rio Tinto Simfer for the spirit of cooperation they have shown in achieving this major milestone. The creation of La Compagnie du TransGuinéen is a positive step and builds a solid foundation for the realisation of the Simandou project. More importantly, it shows that WCS respects its commitments in a concrete way: to build and develop Guinea, and to significantly contribute to strengthening the country’s economy. WCS welcomes today’s signing and thanks all its partners on the ground, particularly our Guinean employees and surrounding communities without whom all this would not have been possible.”

Rio Tinto Executive Committee member in charge of the Simandou project and Copper Chief Executive, Bold Baatar, said: “The incorporation of La Compagnie du TransGuinéen with our partners underscores the importance of the Simandou resource in today’s decarbonising world, and its development will complement Rio Tinto’s strong iron ore portfolio. It is also a very important moment for Guinea and for Guineans, for whom the project’s southern infrastructure corridor has the potential to bring significant benefits for regional economic development by leveraging international project and ESG standards. We are most grateful to the government of Guinea and WCS for their collaboration and look forward to making the promise of Simandou a reality.”

Djiba Diakité, Chairman of the Strategic Committee of the Simandou project and Minister Director of the Office of the Presidency of the Republic, said: “Under the leadership of the Head of State, Colonel Mamadi Doumbouya, the Republic of Guinea reassures the partners, and the world of its firm will to develop the Simandou project in the best interests of the people of Guinea, and all partners. Guinea’s mineral resources belong without exception to all of its daughters and sons and therefore nothing will be done to their detriment. Our country remains open to all responsible and serious mining investment that will help support the sustainable development of our economy and, in turn, is committed to maintaining a stable and calm business climate.”

WCS and Rio Tinto Simfer, the holders of blocks 1-2 and 3-4, respectively, are fully engaged with all stakeholders at national and local level to transform the iron ore potential of the Simandou mountain range into a sustainable source of wealth for the people of Guinea for generations to come, Rio added.

Shareholding of La Compagnie du TransGuinéen will be split between development partners Simfer Jersey Ltd. and WCS each receiving a 42.5% equity share and the Government of Guinea taking a 15% free carry equity stake.

WCS is a consortium of Singaporean company, Winning International Group (45%), Weiqiao Aluminium (part of the China Hongqiao Group) (35%) and United Mining Suppliers International (20%). WCS is the holder of Simandou North block 1-2 (with the Government of Guinea holding a 15% interest in the mining vehicle and WCS holding 85%) and associated infrastructure.

The Simfer joint venture comprises Simfer S.A., the holder of Simandou South Blocks 3 & 4, which is owned by the Government of Guinea (15%) and Simfer Jersey Limited (85%). In turn, Simfer Jersey Limited, is a joint venture between the Rio Tinto Group (53%) and Chalco Iron Ore Holdings (CIOH) (47%) – a Chinalco-led joint venture of leading Chinese SOEs (Chinalco (75%), Baowu (20%), China Rail Construction Corporation (CRCC) (2.5%) and China Harbour Engineering Company (CHEC) (2.5%).

Delta Drone to carry out survey mapping and blast inspection services for Assmang’s Khumani mine

Explosives and blasting, Mine operation news, Mine surveying, Mining services, Steel and iron ore, , , , , , , , ,

Global drones-as-a-service provider, Delta Drone International Limited, says it has signed a contract with Assmang Proprietary Limited for drone surveying services at its Khumani iron ore mine in the Northern Cape Province of South Africa.

The contract, which is through Delta Drone subsidiary Rocketmine Pty Ltd, is for a three-year renewal and has a Total Contract Value of A$880,000 ($609,740).

Drone services will include survey mapping and blast inspections for Khumani – formerly known as the Bruce, King and Mokaning (BKM) Project, which refers to the farms on which the iron ore resources are located. The mine has a capacity to mine 14 Mt/y of iron ore, according to Assmang.

DLT CEO, Christopher Clark, said: “We are very pleased to have renewed our services for a further three years with Khumani mine who are a leading player in the iron ore mining sector.”

Boston Metal looks to disrupt and decarbonise steel and iron ore industries

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Boston Metal is looking to decarbonise the steel-making sector at the same time as helping iron ore producers with their Scope 3 emissions dilemma.

The concept of ‘green steel’ has been widely discussed over the last few years, with LKAB, SSAB and Vattenfall’s HYBRIT project being the most cited case study, thanks to both its advanced stage of development – it has already produced fossil-free steel on a trial basis – and its revolutionary way of introducing hydrogen in place of coke as the iron ore reduction method in the steel-making process.

SSAB and LKAB are leveraging HYBRIT to completely transform their production processes: SSAB is building new hydrogen-based steel making facilities able to match its current base of 8.8 Mt/y of steel by 2030 and LKAB is moving from iron ore pellet production to direct reduced iron (DRI) in line with this.

Tadeu Carneiro, Chairman & CEO of Boston Metal

The ambitions of such a project are impressive, but can such a green steel-making process be applied to the circa-1,900 Mt of steel currently being produced for the world market?

The answer is no, according to Tadeu Carneiro, Chairman & CEO of Boston Metal.

He expands on this: “There are four ways of reducing iron oxides into a metal for steel-making. One is through the use of carbon; another way is through using another metal as a reductant, which is currently not feasible; the third one is with hydrogen, which is possible – as HYBRIT has shown – but is limited to premium iron ores; and the last is through our solution.”

The solution in question is – like HYBRIT – a green option, but – unlike HYBRIT – is applicable to all iron ores, regardless of grade, according to Carneiro.

Boston Metal’s process, which it calls Molten Oxide Electrolysis (MOE), works by adding iron ore to an electrolytic cell and passing electricity through said cell. The electricity both breaks the bonds of the iron oxides present, as well as heats up the whole batch within the cell, creating molten iron that sinks to the bottom of the cell ready for collection (tapping).

During the bond breaking and heating process, MOE produces oxygen as a by-product, with the resultant oxides forming the electolyte and remaining in said electrolyte (floating above the liquid iron).

“Because it is molten, the iron gets separated from the electrolyte and sits in the bottom of the cell,” Carneiro said. “As the molten iron is heavier than the electrolyte, the impurities float to the top and can be tapped separately.”

So, not only do companies using MOE get a molten iron product, they also get a slag by-product that can be used in various applications in the construction industry – all without using coking coal or coke.

“In traditional blast furnace-based steel making, you have to pelletise or sinter the iron ore, you need to process coking coal into coke and you then have to mix the two in the blast furnace and blow air to get pig iron,” Carneiro explained. “This pig iron contains around 4% carbon, which needs to be burnt off through, typically, a process in the basic oxygen furnace to get molten iron.”

Boston Metal’s MOE process gets to this same point using just iron ore and electricity, according to Carneiro.

“All of this is replaced by a battery of cells that, when assembled in significant numbers, can compete with blast furnaces in terms of molten iron capacity,” he said.

Carneiro expanded on what he meant by ‘significant numbers’, offering up an example of 300 MOE modules assembled in two lines of 150 able to produce 1 Mt of steel.

And all of this is in an incremental capital expenditure range within the millions of dollars, instead of the billions of dollars often required to build a traditional steel-making plant.

This puts a green process in the reach of not only steel-makers but iron ore producers, according to Carneiro.

“If you have green electricity at an iron ore mine, you can bring the cells there, melt the iron and ship a metallic product to steel-makers,” Carneiro said.

This pure iron product can be remelted elsewhere and processed into flat and long steel products for the automotive and construction industries.

“This represents a higher value-added product for iron ore miners, enabling them to ship a product that is 40% lighter in terms of weight,” Carneiro explained.

Finding a ‘green’ end-user that brings down a miners’ Scope 3 emissions while holding a molten iron ore product is a lot easier than finding one when shipping iron fines, concentrate or sinter: hence the reason why iron ore miners’ Scope 3 emission goals appear a lot less ambitious than the Scope 1 and 2 targets within their control.

It is no wonder BHP and Vale have been early backers of Boston Metal.

It sounds too good to be true, and there is a reason for that.

From speaking to Carneiro, the company could start producing molten iron through the chosen method today – not at a scale the steel-industry would yet consider commercial, but at a pilot scale at least.

For the commercial process to be considered green, the company would need renewable electricity to do this; and lots of it.

Carneiro doesn’t shy away from this, explaining that MOE will require 4 MWh of electricity per tonne of steel to work at such a scale. This is the equivalent of up to 500 MW for a 1 Mt/y molten iron plant.

The incumbent process Carneiro and his US-based team are looking to take market share from requires 5.5-6 MWh of energy per tonne of steel, while the electric arc furnace (EAF) method of making steel – which uses predominantly scrap metal – has a much smaller electricity requirement.

“If you had 2 billion tonnes of scrap to be melted, the EAF route is the best way to make steel, hands down,” Carneiro admits. “The problem is you don’t have such scrap availability and, in order to increase supply, you would need lots more steel coming from iron ore.”

For reference, the HYBRIT process is expected to require 600 MW of hydrogen electrolyser capacity to 2025 to get LKAB to the 1.3 Mt/y sponge iron (DRI) mark.

Yet, scrap steel is not the only thing in short supply currently. Green electricity is far from abundant, with only the likes of Quebec (hydro power capacity) and some Nordic countries having a plentiful supply – a fact Carneiro acknowledges.

“If you don’t believe that green electricity will be available, abundant, reliable and cheap in the future, you can forget about the MOE process,” he said. “But then you also have to forget about a lot of other processes that are set to use green electricity and the massive amounts of investment the green energy space is seeing on an annual basis.

“Society has decided to go electric and to go electric in a green way, so it is only reasonable to expect that, in the future, electricity will be all of this.”

Carneiro is planning for such a transition, with his company in the process of commissioning a full-size industrial MOE cell at its Woburn, Massachusetts headquarters. This could be ready as early as next month.

It follows a trial of a pilot cell at Brazil-based ferroniobium producer CBMM’s production plant in Araxá, Brazil, where the technology was able to use the same process to turn niobium ore into high-value ferroniobium-based products.

“We were able to prove out the process with CBMM on a smaller scale, which has given us the confidence to make a much bigger cell.”

The company plans to use this bigger cell and, through a subsidiary in Brazil, take advantage of other opportunities to extract value from mining waste using the MOE technology. This could see Boston Metal assemble a battery of MOE cells to manufacture some 5,000-10,000 t of high value-added metals.

While this is deemed ‘pilot scale’ for steel producers, it is sizeable for those producing high value-added products such as niobium, vanadium, tantalum, chrome and others, Carneiro said. And the project will only aide the company’s steel-making ambitions.

“By developing the cell for these high value-added metals, we are finding lots of the answers for the steel-sized cells as well,” he said.

Such groundwork today is preparing the company for a time when steel-makers and iron ore miners have assessed the green electricity landscape and are ready to invest in such technology.

“All the leading steel-making companies have made pledges to be carbon neutral by the 2050s,” Carneiro said. “This means they need to phase out carbon reduction by the mid- to late-2030s. By this point in time, we will be ready to offer our solution on a commercial scale, allowing them to take advantage of the abundance of iron ores – low and high grade – around the world.”

Epiroc to deliver advanced autonomous drilling solutions to SNIM in Mauritania

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Epiroc has won a large order for surface mining equipment from Société Nationale Industrielle et Minière, in Mauritania.

Société Nationale Industrielle et Minière, known as SNIM, is one of Africa’s largest iron ore producers. The mining company has ordered a package of Epiroc Pit Viper 351 drill rigs with advanced automation solutions that will be used at the new F’Derick mining site. Epiroc will, in addition, provide service supervision and spare parts.

The equipment order is valued around SEK150 million ($14.7 million) and was booked in the June quarter of 2022.

“Epiroc has a long-term relationship with SNIM, and we look forward to continue supporting the customer with optimal productivity and safety at the new mine site,” Helena Hedblom, Epiroc’s President and CEO, said.

The Pit Viper 351 rigs are manufactured in Texas, USA. They will be installed with automation features including AutoDrill, which allows for up to 100% of the hole drilling cycle to be in automatic mode with high consistency and reliability of operations, and with AutoLevel, which minimises the time it takes to level and delevel and hence provides more time drilling. They will also be equipped with Epiroc’s telematics system, which allows for intelligent monitoring of machine performance and productivity in real time, Epiroc says

Bedeschi stacker, conveyor being commissioned at Shougang Hierro iron ore ops

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Close to eight months after announcing the contract award, Italy-based Bedeschi S.p.a. has delivered a stacker and conveyor to Peru-based iron ore miner, Shougang Hierro Peru SAS.

The STK33/1000 stacker and conveyor have been designed to operate at a 1,800 t/h rate, and are being used as part of an expansion project. They have been installed in the San Nicolas beneficiation area where the mineral is processed and stocked before being dispatched.

Both pieces of equipment are in the commissioning phase ready to be handed over to the mine operators, Bedeschi said.

Back in December, the company announced the order from Shougang Hierro, saying it would be responsible for engineering, manufacturing and delivery of one conveyor (width 1,000 mm and total length of 710 m) and one stacker STK33/1000 designed for a nominal stacking rate of 1,500 t/h of iron ore.

It was also supporting Shougang Hierro in the optimisation of existing equipment, implementing DEM analysis and optimised design on interfaces with the new supplied equipment.

Shougang Hierro’s open-pit mine uses Chinese TYHI WK12 rope shovels loading Komatsu HD1500-7 and Caterpillar 785C trucks to transport ore to primary crushers, from where ore is conveyed to San Nicolas via a belt approximately 15.3 km long and with a capacity of 2,000 t/h.

The secondary crushing plant at San Nicolas sees the iron ore reduced in size by approximately 95% then fed to a magnetic separation plant for mill grinding and concentration via cyclones, magnetic separation and flotation, separated into two types of products, high-grade iron concentrate for sintering and the other used to feed the pelletising plant, after going through a filtration process. In the filter plant, thickening, homogenisation and filtering of the pulp received from the magnetic plant are carried out, leaving the ore ready to be made into pellets.

Aqura Technologies to deliver Private 4G network at Port Hedland

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Aqura Technologies, a Telstra Purple company, says it will design and deliver an advanced Private 4G network for the Port Hedland-based operation of Pilbara Ports Authority (PPA).

The new standalone broadband network will support PPA’s extensive marine digital platforms, enhance worker mobility and provide seafarers with independent high-speed connectivity when visiting the Port of Port Hedland, it said. Port Hedland is a major export facility for the big iron ore producers in the Pilbara of Western Australia.

Aqura Chief Operations Officer, Alan Seery, said: “The solution Aqura has designed blends the best in operational network capability with enhanced user experience, accessible across the extensive Port of Port Hedland operations and out to sea.

“Our installation of Private 4G at the Port of Port Hedland will leverage the expanded capabilities of Private 4G that will assist the PPA in driving safety, productivity and efficiency initiatives.

“The communications network, upgradeable to 5G as technology advances, also offers more control and flexibility to support Industry 4.0 use cases and other technologies such as IoT.”

Private 4G requires the delivery of several prioritised services for a range of different end-use cases. The network leverages the embedded Quality of Service capability and high throughput of 4G and is dimensioned to ensure the extensive marine sensors network that PPA uses has reliable and robust connectivity for the safe passage of vessels through challenging waterways in the area.

The private network will also enable PPA staff to access their corporate and operational systems reliably and securely from anywhere across their extensive port operations, which enhances productivity and improves access to digital safety systems and procedures, Aqura says.

To ensure the wellbeing and welfare of seafarers is enhanced while being restricted to their vessels at berth or at anchor, Aqura will leverage its Complete Access Network platform to deliver a secure, user-friendly service, it added.

The project has kicked off with the network planned to be live by the end of 2022.

Monadelphous banks Australia work with FMG, Rio Tinto, Roy Hill and BMA

Bulk handling, Equipment maintenance, Mine operation news, Mining services, Steel and iron ore, , , , , , , ,

Engineering company Monadelphous Group Limited says it has secured new contracts and contract extensions in the resources and infrastructure sectors totalling approximately A$220 million ($150 million).

Within this is a number of contracts for work in the Pilbara region of Western Australia, including:

  • A five-year contract to provide maintenance, repairs, general shutdown services and minor projects across Fortescue Metals Group’s Pilbara operations;
  • A multi-disciplinary contract with Rio Tinto for the construction of a new conveyor at the Tom Price iron ore mine, which is expected to be completed in the first half of 2023; and
  • A contract associated with the construction of a pipeline and access road at the Roy Hill Mine site. The work is expected to be completed towards the end of 2022.

In Queensland, Monadelphous has also secured a 12-month extension to its existing contract with BHP Mitsubishi Alliance for the provision of dragline shutdown and maintenance services to its operations in the Bowen Basin.

NRW Holdings banks Olive Downs, Mt Webber work

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NRW Holdings has added more work to its roster with confirmation of projects from the Olive Downs coking coal project in Queensland and the Mt Webber iron ore mine in Western Australia.

Golding Contractors, a subsidiary of NRW, has secured the rail civil construction contract for the Pembroke-owned Olive Downs project.

The civil works to be undertaken include a new 19-km rail loop for the new steelmaking coal project, including all earthworks, drainage culverts and construction of two new rail bridges. The scope also includes importing capping material up to underside of ballast.

The contract is valued at circa-A$52 million ($35 million) and is expected to have a duration of 14 months. In addition, Golding has also been awarded circa-A$15 million of bulk earthworks, drainage and roadworks relating to the new coal handling processing plant at Olive Downs.

Olive Downs is being developed to produce up to a forecast 15 Mt/y of saleable coal over its 79-year mine life.

NRW has also received an executed contract extension from Atlas Iron Pty Ltd for the mining and crushing services works at Mt Webber.

Some 220 km south of Port Hedland in the Pilbara Western Australia, Mt Webber has two mining areas in Fender and Dalton, which produces a high-grade lump and fines product that is used in the Atlas Iron supply chain.

The works to be continued include load & haul, drill & blast and run-of-mine re-handling and crushing and screening. The drill & blast and crushing components are to be undertaken by NRW’s wholly owned subsidiaries, Action Drill & Blast Pty Ltd and Primero Pty Ltd. Primero has designed, constructed and will operate a new PGX-1000 crushing plant to allow crushing and screening of up to 1,000 t/h.

The anticipated value of the contract extension is circa-A$60 million over a duration commencing July 2022 and expected to be completed by the end of 2024 with a project workforce averaging around 80 personnel.

Metso Outotec greenfield iron ore contract to include most sustainable tech available

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Metso Outotec says it has been awarded a major contract for the delivery of sustainable crushing, screening and grinding technologies to a greenfield iron ore project in South America.

The concentrator plant has a targeted production of premium pellet feed, with the total value of the order approximately €45 million ($47 million).

The comminution circuit flowsheet developed for the new concentrator plant in cooperation with Metso Outotec represents the most sustainable technology currently available, according to the OEM. Conventional horizontal mills have been replaced with the combination of HRC™e high pressure grinding rolls (pictured above) and Vertimill® grinding mills to achieve the best energy-efficiency with the lowest operating and life cycle costs, it says.

By using this flowsheet, the plant is expected to save 25% of installed power compared with a conventional high pressure grinding roll (HPGR)/ball mill circuit and over 40% compared with a conventional SABC (SAG mill followed by pebble crusher and ball mill) circuit, the company claims.

Metso Outotec’s scope of delivery consists of the engineering, manufacturing, and supply of SuperiorTM MKIII Primary Crusher, HP SeriesTM cone crushers, HRC e HPGR high pressure grinding rolls, vibrating feeders, as well as banana, horizontal and dewatering screens and Vertimill grinding mills. In addition, Metso Outotec will provide installation and commissioning advisory services and wear and spare parts.

Christoph Hoetzel, Head of Grinding business line at Metso Outotec, said: “Metso Outotec is honoured to be chosen to deliver these state-of-the-art comminution technologies. The plant’s Planet Positive comminution flowsheet combines the best solutions available, allowing to achieve superior energy-efficiency and lower wear rates.”

Fernando Samanez, Vice President, Minerals Sales, South America market area at Metso Outotec, added: “This is a remarkable project and Metso Outotec will play a significant role also in the project start-up with its strong local operations and highly skilled service team.”