Tag Archives: copper

Protea Mining Chemicals develops world first copper-cobalt processing solution

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Diversified chemicals group, Omnia Holdings, reports its Protea Mining Chemicals division has become the first in its field – globally – to develop a solution that helps copper and cobalt mines reduce product contamination (improving metal purity levels) and maximise throughput in the solvent extraction (SX) process.

This pioneering solution took six years to develop and was carried out in partnership with chemicals manufacturers and copper and cobalt mining customers in the Democratic Republic of the Congo, Omnia said.

“Finding safer, more efficient ways to extract valuable resources and enhance profitability continues to be a priority in the mining sector – which has been particularly constrained by the impacts of the COVID-19 pandemic,” the company said.

“This discovery will extend the life of copper and cobalt mines and assist profitability. Protea Mining Chemicals is working closely with other mines to replicate this success in other regions.”

Michael Smith, Managing Director at Protea Mining Chemicals (pictured), said: “Over the past few decades, many unsuccessful attempts have been made by mining houses, global chemical manufacturers, as well as SX equipment and process engineers to address this issue of contamination. Needless to say, this has been a very challenging journey and we are delighted by what we have been able to achieve.”

The news comes hot on the heels of Omnia’s BME breaking the South African record for the largest electronic detonator blast.

Atlantic Nickel ready to delve underground for Santa Rita mine life expansion

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Atlantic Nickel has released a preliminary economic assessment (PEA) on its Santa Rita nickel mine, in Brazil, that shows the potential for the company to become one of the largest sustainable nickel sulphide producers in the world.

The announcement, made in concert with Appian Capital Advisory LLP (the owner of Atlantic Nickel), follows the recommencement of open-pit mining at Santa Rita in August 2019.

This new NI 43-101 technical report outlines a 34-year mine life for Santa Rita, in Bahia, with eight years of open-pit production, underpinned by proven and probable reserves of 50.6 Mt at 0.31% NiS, and 26 years of underground mining.

The open-pit mine plan was prepared to prefeasibility study level and encompasses a large open pit and a nearby, much smaller satellite open pit along strike. Both pits will be mined with conventional mining equipment, and the plan will be executed in 10 phases, the company says.

The open pit is scheduled over a period of eight years, ending in 2028, with operations using standard methods of drilling and blasting, loading, and hauling. It would produce 20,000-25,000 t/y of contained nickel equivalent at a C1 cost of $2.97/lb Ni and an all-in sustaining cost (AISC) of $4.12/lb Ni, the company says.

The Santa Rita process plant, having started production in 2009, was completely refurbished and recommissioned in the second half of 2019 in line with the mine restart. The plant consists of crushing, grinding, flotation, thickening and filtration unit operations to produce a saleable nickel concentrate. Flotation tailings are pumped to a tailings storage facility, while grinding is performed by a SAG mill, two ball mills and two pebble crushers. This is followed by a conditioning circuit and a flotation circuit, with the final concentrate thickened and pumped to storage tanks ready for filtration. Concentrate is filtered in a Larox (Metso Outotec) pressure filter. Following filtration, the final concentrate is trucked to the port of Ilhéus where it is loaded onto ships for transport to market.

The mineral resource estimate for the expansion case consists of 94.2 Mt of measured and indicated resources across open-pit and underground mining at average grades of 0.41% NiS, 0.14% Cu, 0.01% Co, 0.03 g/t Pd, 0.07 g/t Pt and 0.05 g/t Au, with 90.6 Mt of inferred resource at 0.54% NiS, 0.17% Cu, 0.02% Co, 0.04 g/t Pd, 0.09 g/t Pt and 0.06 g/t Au.

Sublevel Caving (SLC) was selected as the mining method for the underground portion of the deposit based on the amenable geometry of the deposit, and because productivity and cost advantages of SLC enable greater exploitation of the underground resource at greater margin than more selective mining methods, Atlantic Nickel said.

“The geometry of the deposit and the location below a mined open pit are similar to the Ernest Henry SLC, which is successfully operated by Ernest Henry Mining (a subsidiary of Glencore) in Queensland, Australia,” the company added.

The SLC mining method employs long-hole drilling and blasting techniques to extract mineralisation sequentially from the surface to the bottom of the deposit. The method does not require backfill and, therefore, relies on the overlying waste rock to cave and fill the mined void, the company explained. Caving of the overlying waste rock results in surface subsidence above and in the immediate vicinity of the underground deposit, but the subsidence will not interfere with open-pit mining since initial production from underground is planned to commence in 2028 when open-pit mining is completed.

Infrastructure capital and development of the underground project is planned to start at the beginning of 2026, with production from the underground ramping-up over a seven-year period until full production of 6.2 Mt/y is achieved.

The underground portion of the resource considered in the PEA plan consists of 43.5 Mt of indicated resources and 90.6 Mt of inferred resources. This resource was used to come up with a 40,000-45,000 t/y of contained nickel equivalent production profile for the underground operation over life of mine at a C1 cost of $2.17/lb Ni and an AISC of $3.92/lb Ni.

The SLC mining layout in the PEA comprises 37 mining levels spaced at vertical intervals of 25 m. Each level is made up of parallel and evenly spaced drill drives from which production drilling and blasting occur. Once blasted, the mineralisation is loaded from the drill drives using LHDs and loaded into trucks for haulage to the surface during the initial ramp-up phase, and later to ore passes feeding an underground crushing station and conveying to surface via an inclined tunnel.

“The SLC method employs a top-down mining sequence that enables production to ramp-up quickly once the top of the underground deposit has been accessed,” Atlantic Nickel says. “The method also enables high production rates as the mining cycle is simplified by the standardisation of development and production and with no backfilling required.”

While still early days in terms of the underground mine’s development plans, the company assumed the use of automated LHDs, longhole drilling and jumbo development drilling in the PEA, a spokesperson for Atlantic Nickel confirmed to IM. This saw Epiroc and Sandvik provide price inputs, with design layouts anticipating such equipment.

“Subsequent studies will optimise the equipment and layouts integration,” the spokesperson added.

And, while the current study assumes the use of a diesel-powered fleet, battery-electric vehicles will also provide upside in future studies and further reduce energy costs, equipment maintenance costs and ventilation power costs, the spokesperson said.

“Both tethered and battery will be look at for specific applications within the mine such as loading from drawpoints and feeding the underground crusher from the bottom of ore passes,” the spokesperson said.

The flotation test work gave similar results to those obtained with open-pit material; hence, plant performance is not expected to be significantly different for underground material, the company said. Underground feed will be treated in Atlantic Nickel’s existing process plant with only minor modifications required, likely to the grinding circuit.

New surface infrastructure associated with the underground mine would include the following:

  • A box cut and portal located to the west of the north end of the open pit;
  • A conveyor portal connecting to the bottom of the existing crusher installation;
  • A temporary construction portal in the west wall at the north end of the open pit on the 82 m RL bench;
  • Multiple ventilation raise surface collars on the western side of the open pit;
  • Ventilation adits on the west wall at the south end of the open pit on the 10 m RL bench;
  • Dewatering pond for storing, settling and recycling water from underground;
  • Electrical reticulation to the portals, adits and services; and
  • Shotcrete batch plant.

After completion of open pit mining, a new tailings storage facility would be required to store the additional 134 Mt of tailings to be produced from the underground mine over a period of 28 years. Like the existing tailings storage facility, raises will be constructed using a downstream method, the company said.

Total capital associated with the underground expansion amounts to $1.3 billion over the 34-year combined operation, with only $355 million of that being spent during the first five years of underground development commencing in 2026. The expansion is partially self-funding with cash flows generated from the open-pit mining operation, the company said.

Monadelphous expands BHP relationship with iron ore, coal, Olympic Dam work

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A month after securing several major contracts with BHP, Monadelphous Group has announced another series of works packages with the major miner that come with a combined value of around A$120 million ($87 million).

Two of the construction and maintenance contracts were awarded under its WAIO Asset Panel Framework Agreement with BHP.

This includes a contract to provide structural, mechanical and electrical upgrades at the Newman Hub site in the Pilbara of Western Australia, where work will commence immediately and is expected to be completed before the end of 2021.

The second agreement is at BHP’s Jimblebar iron ore mine site, in Newman, where the company will be dewatering surplus water from the operation.

In addition, Monadelphous has entered into the Olympic Dam Asset Projects Framework Agreement with BHP to provide multi-disciplinary construction services at the Olympic Dam copper mine, in South Australia (pictured). The first contract secured under this agreement is for the supply and construction of acid storage tanks and connection to the existing operating acid plant.

Finally, the company’s Maintenance and Industrial Services division has been awarded a contract to undertake a major dragline shutdown for BHP Mitsubishi Alliance at its Saraji coal mine, located near Dysart, Queensland. The work will be completed by the end of December 2020.

Last month, Monadelphous’ latest construction and maintenance contract awards from BHP included a contract for the supply and installation of the Jimblebar Transfer Station project, and a contract for the refurbishment of Car Dumper 3 at Nelson Point, Port Hedland.

Antofagasta responds to environmental concerns with new Los Pelambres copper mine plan

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Antofagasta Minerals is preparing to submit an investment proposal for its Los Pelambres mine in Chile that could see it stop using water from the Choapa River and nearby wells, and to use mainly seawater from 2025.

In this way, MLP will be able to guarantee the availability of water for its operations and advance its studies into extending its operations beyond 2035, when its current environmental permits expire, it said.

The submission to the Environmental Impact Assessment System (SEIA) also considers Minera Los Pelambres (MLP), the operating entity, building a new concentrate transportation system with modern control systems, routed away from the most populated areas. This will allow maintenance to be carried out without interfering with the daily life of the surrounding communities.

The 60%-owned mine produced 363,400 t of copper in 2019, alongside 11,200 t of molybdenum and 59,700 oz of gold.

Iván Arriagada, CEO of Antofagasta Minerals, said: “We are going to invest in works that allow us to adapt our operation to the changes that have occurred in the Choapa province and the region over the last 20 years as a result of the prolonged drought caused by climate change and the increase in its population and productive activity.

“This is a key step in the future of Los Pelambres.”

Arriagada added: “We have a long-term strategic vision to extend the life of the operations while ensuring its continued coexistence with other productive activities in the province of Choapa. We are particularly interested in taking care of natural resources that are scarce today, such as water, and continuing to reduce our potential impact on the environment.”

This new stage of the company’s development, called Los Pelambres Futuro, also includes the contribution of the Los Pelambres Expansion project, which was 36% complete as at the end of June. A significant part of the work on the project was stopped as a result of COVID-19 and construction is now restarting in stages.

“We want to make minor adjustments to the design of the expansion project, which is already under construction, to facilitate the future expansion of the desalination plant,” Arriagada said. “In this way, there we will be less impact on the environment.”

It is estimated that the Operational Adaptation Investment (OAI) will be submitted to the SEIA in the first half of 2021. Its execution could begin in 2023, creating up to 2,000 jobs.

The OAI includes the expansion of the 400 litre/s desalination plant, currently being built in Punta Chungo, and the industrial quality desalinated water supply system, to 800 litres/s.

Mauricio Larraín, General Manager of MLP, said: “If our investment proposal is approved, in the coming years we could stop extracting water from the Choapa River and nearby wells, and more than 95% of the water used by Los Pelambres will either come from the sea or will be recirculated water.”

This plan could see MLP become the first mining company in the central zone of Chile to operate predominantly with seawater.

“The decision to use desalinated water is an idea that arose from dialogue with nearby communities and authorities and seemed to us to be the best way that we could contribute to easing the water scarcity challenges in this part of the country that affects us all,” Larraín said.

The company, which currently has environmental permits to extract water from the Choapa River until 2035, has worked for years with its neighbours and the authorities on the water management of the Choapa Valley. This work will continue in the future with the objective of promoting the sustainable use of the available water and strengthening the Rural Drinking Water systems for human consumption, the company said.

Lastly, the Environmental Impact Study will include some continuity and maintenance works for the tailings system. These works are already included in the Environmental Qualification Resolution (RCA) 38/2004 and consist of works on the north and south contour channels, repositioning pipes and other works.

Arriagada concluded: “This set of initiatives will require very significant investment in the province of Choapa over the next 10 years, close to $1 billion, and will also generate a significant number of jobs. It will also contribute towards helping the region and the country overcome the social and economic crisis generated by COVID-19 as soon as possible.”

Caterpillar microgrid hybrid power solution keeps Peru copper mine energised

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Caterpillar dealer Ferreyros has been selected by Ferrenergy, Ferreycorp’s energy company in Peru, to provide a microgrid power system for the Agromin La Bonita underground copper mine in Acarí, Peru.

Supplied by Ferreyros to support a power purchase agreement between Ferrenergy and the operators of the Agromin La Bonita mine, the system includes more than 2,400 ground-mounted photovoltaic solar modules that supply a total of over 960 kW of energy, twelve 75 kW power inverters, a 1.5 MVA power transformer, and a 500 m medium-voltage transmission line. The solution helps to provide power around the clock for mine lighting and ventilation, ore processing, and workforce accommodations, according to Cat.

“Southern Peru features some of the highest photovoltaic power potential in the world, making it an ideal location for a solar microgrid system,” Bart Myers, General Manager for Caterpillar Large Electric Power Solutions, said. “The solution designed by Ferreyros for the Agromin La Bonita mine illustrates how Cat dealers combine technical expertise with a deep knowledge of their customers’ businesses to leverage renewable sources of energy while delivering reliable power for critical enterprise activities.”

Caterpillar’s hybrid energy solutions technology suite is designed to reduce fuel expenses, lower utility bills, decrease emissions, and reduce the total cost of ownership while increasing energy resiliency in even the most challenging environments, it says.

Key offerings include:

  • The Cat Microgrid Master Controller, which keeps loads continuously energised with high-quality power at low cost by managing the flow of power from every source in the system;
  • Cat Connect Remote Asset Monitoring, which provides data visualisation, reporting and alerts from anywhere in the world through a web interface;
  • Cat Bi-Directional Power (BDP) inverters, which supply real and reactive power with grid-forming and grid-following capabilities;
  • Cat Energy Storage System modules, which use advanced lithium-ion batteries with superior energy density, high discharge/recharge efficiency and high cycle life to compensate for fluctuations in output from renewable energy sources; and
  • Cat photovoltaic solar modules that deliver reliable and predictable output, robust performance, scalability, compatibility, and simplified installation.

Latest Kamoa-Kakula copper studies reaffirm project’s world-class status

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The latest economic studies on Ivanhoe Mines and Zijin Mining Group’s majority-owned Kamoa-Kakula project in the Democratic Republic of Congo have indicated the asset could become the world’s second largest copper mining complex.

First production at Kamoa-Kakula is less than a year away, but the project partners have continued with a series of economic studies that emphasise the world-class nature of the orebodies within their control.

The headline maker is the results of a preliminary economic assessment that has evaluated an integrated, multi-staged development to achieve a 19 Mt/y production rate at the mine, with peak annual copper production of more than 800,000 t.

At the same time, a prefeasibility study (PFS) has been carried out to look at mining 1.6 Mt/y from the Kansoko mine, in addition to 6 Mt/y already planned to be mined from Kakula, to fill a 7.6 Mt/y processing plant at Kakula.

A definitive feasibility study (DFS) has also evaluated the stage-one, 6 Mt/y plan at Kakula, which is currently being constructed and is less than a year away from producing first copper, according to Ivanhoe Co-Chair, Robert Friedland.

While the operation looks to have the scale of a world-class asset, it will also have top ranking ‘green’ credentials, according to Friedland.

“The Kakula mine has been designed to produce the world’s most environmentally-responsible copper, which is crucial for today’s new generation of environmentally- and socially-focused investors,” he said.

“Zijin shares our commitment to build the new mines at Kamoa-Kakula to industry-leading standards in terms of resource efficiency, water and energy usage, and minimising emissions. We are blessed with ultra-high copper grades in thick, shallow and flat-lying orebodies – allowing for large-scale, highly-productive, mechanised underground mining operations; and access to abundant clean, sustainable hydro electricity to power our mines – providing us with a distinct advantage in our goal to become the world’s ‘greenest’ copper miner and be among the world’s lowest greenhouse gas emitters per unit of copper produced.”

The project recently retained Hatch of Mississauga, Canada, to independently audit the greenhouse gas intensity metrics for the copper that will be produced at Kamoa-Kakula.

The Kamoa-Kakula Integrated Development Plan (IDP) 2020, as the companies refer to it, builds on the results of the previous studies announced in February 2019.

DFS to 6 Mt/y

The new DFS incorporates the advancement of development and construction activities to date, and has once again confirmed the outstanding economics of the first phase Kakula Mine, Ivanhoe said.

It evaluates the development of a stage one, 6 Mtpa underground mine and surface processing complex at the Kakula deposit with a capacity of 7.6 Mt/y, built in two modules of 3.8 Mt/y, with the first already under advanced construction (see photo). It comes with an internal rate of return of 77% and project payback period of 2.3 years.

The first module of 3.8 Mt/y commences production in the September quarter of 2021, and the second in the March quarter of 2023. The life-of-mine production scenario provides for 110 Mt to be mined at an average grade of 5.22% Cu, producing 8.5 Mt of high-grade copper concentrate.

The Kakula 2020 DFS mine access is via twin declines on the north side and a single decline on the south side of the deposit. One of the north declines will serve as the primary mine access, while the other decline is for the conveyor haulage system, which was recently commissioned.

The primary ore handling system will include a perimeter conveyor system connected to truck load-out points along the north side of the deposit. The perimeter conveyor system will terminate at the main conveyor decline.

The mining method for the Kakula deposit is primarily drift-and-fill using paste backfill (around 99%); with the exception of a room-and-pillar area close to the north declines, which will be mined in the early years of production. The paste backfill system will use a paste plant located on surface connected to a distribution system that includes a surface pipe network connected to bore holes located at each connection drive on the north side of the orebody, the company says.

The Kakula concentrator design incorporates a run-of-mine stockpile, followed by primary cone crushers operating in closed circuit with vibrating screens to produce 100% passing 50 mm material that is stockpiled.

At the end of August, the project’s pre-production surface ore stockpiles totalled an estimated 671,000 t grading 3.36% Cu, including 116,000 t of high-grade ore grading 6.08% Cu.

The crushed ore is fed to the high pressure grinding rolls operating in closed circuit with wet screening, at a product size of 80% (P80) passing 4.5 mm, which is gravity fed to the milling circuit.

The milling circuit incorporates two stages of ball milling in series in closed circuit with cyclone clusters for further size reduction and classification to a target grind size of 80% passing 53 micrometres (µm).

The milled slurry is pumped to the rougher and scavenger flotation circuit where the high-grade, or fast-floating rougher concentrate, and medium-grade, or slow-floating scavenger concentrate, are separated for further upgrading. The rougher concentrate is upgraded in the low entrainment high-grade cleaner stage to produce a high-grade concentrate.

The medium-grade or scavenger concentrate together with the tailings from the high-grade cleaner stage and the recycled scavenger recleaner tailings are combined and further upgraded in the scavenger cleaner circuit. The concentrate produced from the scavenger cleaner circuit, representing roughly 12% of the mill feed, is re-ground to a P80 of 10 µm prior to final cleaning in the low entrainment scavenger recleaner stage.

The scavenger recleaner concentrate is then combined with the high-grade cleaner concentrate to form final concentrate. The final concentrate is then thickened and pumped to the concentrate filter. Final filtered concentrate is then bagged for shipment to market.

The scavenger tailings and scavenger cleaner tailings are combined and thickened prior to being pumped to the backfill plant and/or to the tailings storage facility. Backfill will use approximately half of the tailings, with the remaining amount pumped to the tailings storage facility.

Based on extensive test work, the concentrator is expected to achieve an overall recovery of 85%, producing a very high-grade concentrate grading 57% copper. Kakula also benefits from having very low deleterious elements, including arsenic levels of 0.02%.

7.6 Mt/y PFS

The PFS evaluating mining 1.6 Mt/y from the Kansoko mine envisages an average annual production rate of 331,000 t of copper at a total cash cost of $1.23/lb copper for the first 10 years of operations, and annual copper production of up to 427,000 t by year four. This comes with an internal rate of return of 69% and project payback period of 2.5 years, according to Ivanhoe.

Development would see Kakula-Kansoko benefit from an ultra-high, average feed grade of 6.2% Cu over the first five years of operations, and 4.5% Cu on average over a 37-year mine life.

There are currently two mining crews at Kansoko, in addition to the 10 mining crews (three owner crews and seven contractor crews) currently at Kakula, with the ability to increase this number to fast-track the development of Kansoko, Ivanhoe said.

19 Mt/y option

The Kamoa-Kakula 2020 PEA presents initial production from Kakula at a rate of 6 Mt/y, followed by subsequent, separate underground mining operations at the nearby Kansoko, Kakula West and Kamoa North mines, along with the construction of a 1 Mt/y of concentrate direct-to-blister smelter. The smelter section of the study saw China Nerin Engineering act as the main engineering consultant with Outotec providing design and costing for propriety equipment.

The Kamoa North Area comprises five separate mines that will be developed as resources are mined out elsewhere to maintain the production rate at up to 19 Mt/y, with an overall life in excess of 40 years, Ivanhoe says.

For this integrated 19 Mt/y option, the PEA envisages $700 million in remaining initial capital costs, with future expansion at Kansoko, Kakula West and Kamoa North funded by cash flows from the Kakula mine, resulting in an internal rate of return of 56.2% and a payback period of 3.6 years.

This shows the potential for average annual production of 501,000 t of copper at a total cash cost of $1.07/lb copper during the first 10 years of operations and production of 805,000 t/y of copper by year eight, Ivanhoe said.

“At this future production rate, Kamoa-Kakula would rank as the world’s second largest copper mine,” the company said.

BHP Olympic Dam looks for value in SciDev wastewater treatment solution

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SciDev has received a trial purchase order for its MaxiFlox chemistry from BHP’s Olympic Dam polymetallic mine, in South Australia, which will see the company transfer its waste processing expertise to the production side, Lewis Utting says.

Australia’s largest copper operation, Olympic Dam operates a fully integrated processing facility from ore to metal.

The SciDev trial, which includes an initial A$1 million ($717,526) purchase order for the MaxiFlox chemistry, reflecting about three months of consumption, is expected to start by the end of the year and last around six months. It will focus on the use of SciDev’s chemistries in the hydromet and concentrator sections of the processing plant, SciDev said.

SciDev’s South Australia-based staff will be on site to deliver the associated professional services.

SciDev Managing Director and Chief Executive Officer, Lewis Utting, said the order represented a significant opportunity for SciDev.

“The opportunity to transfer our chemistry and knowhow from the waste processing side directly to the production side of a mining operation reflects the potential for the company’s bespoke chemistries,” he said.

The Olympic Dam mine produced 171,600 t of copper cathode in the year to June 30, 2020, 7% higher than the same period a year earlier, alongside 145,972 oz of refined gold, 984,000 oz of silver and 3,678 t of uranium (all of which was from a concentrate).

MaxiFlox, meanwhile, is specifically designed for the treatment of wastewater across several industries, SciDev says. Products in the MaxiFlox range are supplied in both liquid and powder form across an extensive range of molecular weights and charge densities to solve industrial challenges.

The MaxiFlox chemistries are also being used in the tailings thickener at the Las Bambas copper mine, in Peru, following a trial purchase order from mine owner MMG.

MICROMINE’s Pitram solution takes control at Greece mine

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MICROMINE says it is making a strong foray into Europe’s mining sector with its Pitram fleet management and mine control solution now operating in Greece.

Already used at more than 50 mining operations across six continents, the installation at the Greece mine is Pitram’s third deployment in the Aegean region, following installations at two production projects in Turkey.

“Greece has a wealth of mineral and ore deposits including gold, silver, lead, zinc, copper, nickel and bauxite – and a history of mining that dates back to ancient times,” Pitram Product Strategy Manager, Chris Higgins, said. “Turkey also has abundant source of industrial raw materials, rare earth minerals and precious metals including gold, copper, zinc, chrome, nickel, iron, lead, mercury, tin and magnesium.

“As a result, international operators and miners are developing projects across the Aegean and Pitram is providing the data insights needed to ensure the operations are well controlled.”

More than 10 mining operations in Europe are currently using Pitram to record, manage and process mine data in real time, according to the company. The scalable solution has now been deployed at the three underground gold, copper and zinc mines in Turkey and Greece.

The Greece project is well advanced with Pitram playing a crucial role in a major refurbishment and expansion of existing operations, the company says.

“Comprising 11 modules – including materials management, OLAP analysis, shift planner and fleet management – Pitram is a sophisticated mine control and management reporting application enabling the miners to capture data, make quicker, evidence-based decisions and allocate resources more effectively,” MICROMINE says.

As production ramped up at the Greece underground mine, the operators chose Pitram, according to MICROMINE, because they needed a solution that would enable them to:

  • Improve development and production mining cycles;
  • Accurately track materials from source to processing;
  • Provide OLAP reporting and analysis;
  • Enhance reactions to, and minimise the impact of, unplanned events; and
  • Increase equipment availability and utilisation.

The implementation of Pitram voice and materials management modules ensured these objectives were met by adapting the solution to meet the specific needs of the site, the company said.

Higgins added: “At MICROMINE we committed to working with our mining clients to deliver the tailored software solutions they need to meet local requirements.

“This includes providing our solutions in the languages needed – that’s why Pitram has been translated into Turkish and Greek. So, with the functionality to switch between English and the local language, all staff on-site can use the application.”

Autonomous haulage under review at Escondida, Spence, BHP says

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Having approved three more autonomous haulage projects across its iron ore and coal portfolio since late 2019, BHP is now taking aim at its Chile copper operations, with the potential for automated trucks currently being studied at Escondida and Spence, the company says.

Alongside the potential for autonomous trucks, drills are being converted to autonomous operation at Escondida and Spence, according to the company.

The news came within the company’s financial year 2020 results presentation today, which showed BHP generated underlying EBITDA of $22.1 billion and attributable profit of $8 billion over the 12-month period.

Since late 2019, BHP has announced and is implementing three additional autonomous haulage projects at mine sites across its coal and iron ore segments.

At the Daunia coal mine in central Queensland, it announced the introduction of 34 autonomous trucks in July 2020, with the first trucks set to begin operating in February 2021 and the rollout to be completed early in 2022.

At the Newman East (Eastern Ridge) iron ore mine in Western Australia, the first of 20 autonomous trucks began operating in July 2020, with the rollout expected to be completed by the end of this year.

At the Goonyella Riverside mine in Queensland, the first coal site to implement autonomous haul trucks, the deployment of 86 autonomous trucks is expected to be completed early in 2022, it said.

“We will continue to assess the value case for potential expansion of this technology to our other Australian iron ore and coal mine sites,” the company said in the results statement today.

SANY delivers first rigid mining truck to Indonesia coal sector

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Five SANY excavators, including two SY750Hs, two SY500Hs, one SY215C, and one SRT95C rigid-body mining truck, have recently been delivered to two large coal mines in Indonesia, the China-based equipment manufacturer reports.

The latest delivery, the SY750H, the largest-tonnage SANY excavator in Indonesia at 76 t, added to the SY500Hs and SY215Cs already on site. The SY750H is equipped with a 5.4 cu.m bucket to achieve higher ripping in difficult ground conditions, SANY says. It comes with a fuel-efficient ISUZU engine.

“The SY750H crawler excavators are used specifically for overburden, as well as for loading dumper trucks in the mine,” SANY said. “They have proved their efficiency, cost-effectiveness and reliability in operation.”

The delivery of the SRT95C, meanwhile, represented the first rigid truck to head to a coal mining job site in Indonesia. It came equipped with a Cummins QST high-power engine with electronic fuel injection control and Allison transmission. “This means enhanced acceleration performance and reduced fuel consumption and emissions,” SANY said.

The truck’s frame is made of alloyed structural steel, which features resistance to low temperature, bending, twisting and impact. In addition, McPherson front strut suspension adopted on the front axle and steering mechanism smooth the ride, according to SANY.

“SANY’s equipment has a strong presence in Indonesia as clients across the islands have purchased a range of products, including excavators, cranes and mining trucks, since years ago,” it said. “These machines have proven their outstanding off-road properties as well as a good quality in service.”

The client from one of the coal mines said: “With large grab capacity, high fuel efficiency and rapid working cycles, SANY excavators fully meet our requirements. Also, the productivity and stability in operation and good aftersales service, especially the spare part support, make SANY rigid mining trucks impressive.”

The delivery of these excavators and trucks followed another order from a mining customer in Africa last month.

On July 23, Eritrea’s Bisha Mining Share Company, owned by Zijin Mining, took delivery of nine SRT95C dump trucks it ordered earlier this year from SANY. These trucks will help the copper-zinc mine increase ore production.