Tag Archives: MineStar Terrain

Newmont hits 100 Mt automation milestone using Cat Command for hauling at Boddington

Western Australia’s largest gold mine, Boddington, has surpassed the 100 Mt milestone for material safely hauled using Cat® MineStar™ Command for hauling with the gold industry’s first autonomous haulage system (AHS) fleet, the OEM says.

Boddington, a deep open-pit surface mine owned by Newmont, delivered 696,000 oz of gold and 163,000 gold-equivalent ounces in 2021.

The mine’s fleet today includes 36 Cat 793F autonomous and four 793D staffed mining trucks to haul material, and the conversion to AHS was one of the fastest in the industry, spanning approximately seven months to roll out all 36 trucks equipped with Command, according to Caterpillar.

Newmont invested $150 million in its autonomous haulage project with goals to improve mine safety and productivity, while extending the life of the mine. The first 231-t Cat 793F was converted to autonomous operation in March 2021. A total of seven trucks from Newmont’s existing fleet were retrofitted with Command for hauling, while 29 trucks were new models.

In October 2021, the last of the 36 autonomous trucks went into operation at the mine, with the mine reaching the 100 Mt of material autonomously hauled benchmark by the end of October 2022.

Kosie Bolton, Technology Site Manager for Caterpillar, said: “The time period between rollout of the mine’s first autonomous 793F truck to full conversion of the mine’s autonomous fleet to achieving 100 Mt autonomously hauled was incredibly short. This is a true testament of the great teamwork between Boddington’s talented and dedicated workforce, Cat dealer WesTrac and Caterpillar. The supporting AHS projects will help to improve data understanding and drive operational excellence through data utilisation.”

Including the autonomous trucks, equipment equipped with MineStar Terrain, and site autonomous vehicles and trucks, the mine has 200 connected assets. An entirely new AHS intelligence office, where all the autonomous trucks and connected assets can be viewed and collected data analysed, was also completed and dedicated in October 2022. The new workspace brings together all AHS team members in a single space with tiered seating and screens at the front of the room, Caterpillar says.

James Earl, AHS Control Room Superintendent for the Newmont Boddington Mine, said: “Having everyone together in the new office allows us to post issues on the screens in front of all workers to quickly address them together. We are extremely proud to deliver the gold industry’s first autonomous haul truck fleet at Boddington. This will help extend the mine’s life, reduce safety risks and lower costs. The project’s record implementation is just another example of Newmont’s trademark ability to set and achieve ambitious goals.”

On top of this milestone, Caterpillar and Newmont agreed in November 2021 to collaborate on a number of mining technology initiatives that provide industry leading outcomes for safety, productivity, sustainability and cost.

Rio Tinto, WesTrac and Caterpillar deploy tele-remote dozing system at iron ore ops

Rio Tinto, WesTrac and Caterpillar have embarked on a project to deploy a new tele-remote dozing system (TDS) at Rio’s iron ore operations in Western Australia that, they say, is wholly focused on operator safety.

Utilising Cat MineStar Command for Dozing and a dedicated operator control centre, Rio Tinto’s solution allows for non-line of sight operation of dozers working in high-risk areas.

Rio Tinto Superintendent Process and Technical, Michelle Woolcock, says the overarching brief was to effectively manage potential safety risks associated with dozers working in areas that were more susceptible to risk.

“The brief was to take the operator out of the line of fire,” Woolcock said. “In particular, the focus was to reduce the risk of operators being in machines that faced a risk of slipping or stability issues, for example when they were working on stockpiles or close to steep walls.”

There are multiple layers of technology and control options involved in the solution, depending on client and site-specific requirements.

Caterpillar Senior Service Engineer, Steve Dougherty, explained: “To start, you need the base remote-control kit. There are different kits available for each machine size. If you wanted to do some basic remote-control work, there’s a kit that includes a console receiver, which is a dedicated wireless link installed on top of the cab.

“There’s a Remote Control Module (RCM) that gets installed under the seat and interfaces with all the base machine functions, and the associated wiring and Wi-Fi network to allow the various parts to communicate.”

The solution includes options for controlling machines within visual range, consisting of an over-the-shoulder console and a dedicated network, which Dougherty says is typically suited to operators needing to perform temporary or one-off, high-risk applications.

“You could run that way all day if you wanted to, but the units are set up with dead-man switches so are really designed for things like machine recovery,” he explained.

“For more long-term applications, like the one that Rio Tinto is rolling out, we set up an operator station which looks very much like a simulator with all the in-cab controls replicated. It can still be run as a line-of-sight solution, but more typically customers opt for the vision kit, which adds four cameras on board the dozer and utilises a customer-supplied Wi-Fi network to relay all of that machine information and the video feeds to the operator station, wherever it may be located.”

While Dougherty says the remote station solution can allow a single operator to control up to five machines at one time in some circumstances, such as strip mining operations, Rio Tinto’s solution is purely designed to move operators into a safer, more comfortable operating environment.

Rio Tinto Superintendent Operational Readiness, Jamie Webster, says the initial rollout of the TDS at the Cape Lambert Port facility, north east of Karratha, is focused on high-risk operations on coarse ore stockpiles with steep gradients and “live” areas where ore is fed into underground tunnels.

“Safety is the number one priority at all Rio Tinto sites and for all employees,” Webster says.

“The message at all levels is that safety always comes first. Every single person on site, from leaders to cleaners, are empowered to stop if they ever feel unsafe and we always look at ways to improve processes so that no one is in harm’s way.”

According to Webster, the TDS project is one such area where process improvements were identified to reduce risk.

“These dozers are operating in quite a tight area around lots of fixed assets,” he explained. “That means work is quite intricate and the real benefits will be realised in pushing ore from the stockpiles into the live zones.

“The dozers are working at the top of a large stockpile and if a dozer slips it could go down a bank, or if it’s working while the apron feeder is operating, the ground could fall away from underneath it. Obviously, we already have processes in place and technology to mitigate such risks, but putting the operators into a station away from the danger zones eliminates any potential risk to them being harmed, no matter how small that risk might be.”

While removing operators from high-risk zones is driving the rollout of the solution, Woolcock says it does not mean removing operators from site.

She says remote operators still need to be “close to the action” and have detailed site knowledge to function most effectively and efficiently. “As much as ‘non-line-of-sight’ operation sounds like it could be carried out from anywhere, the reality is that these operators are multi-tasking in their roles,” she says.

“It will depend on the state of the coarse ore stockpile and what’s coming in and going out. They need to be able to visually inspect and determine what needs to be done. They might spend an hour or two dozing then move on to other tasks while they wait for the stockpiles to be replenished.

“When you need dozer operators, you typically need all hands on deck, and when you don’t need them, if they’re sitting in a control centre hundreds of kilometres away, it’s far more difficult to stay on top of other tasks they might carry out on site.”

Woolcock and Webster admit there was some resistance among the first operators to be trained in TDS, but as they became more familiar with the solution, the operators embraced it.

“A lot of operators quite literally work the dozers through their seats,” Webster says. “They might have worked for decades and are accustomed to feeling the movement. So they’re having to relearn how to drive the dozer without that sense of movement, and they’re relying entirely on the visual feed of information rather than the other senses from being in the mobile rig.”

According to Woolcock, the key to operator acceptance has been allowing them time to use the system and understand the difference the cutting-edge technology will make.

“With the on-the-job trainers (OJTs), they were excited initially to have the chance to learn something novel,” Woolcock says.

“Once the training commenced, a lot of them got quite downhearted because as experienced dozer operators, they had the sense they were going right back to relearning all the knowledge they’d built up over years of manual operation. So they felt like they were starting the first day of school again.

“But it was very much a case of them moving through the classic stages of learning until they had a feel for it and got to that level of conscious competence.

“The transition from resistance to acceptance to championing the new way of working was amazing and I think it was because the OJTs realised they were pioneering new technology.”

Woolcock says two or three operators across each of the Cape Lambert work crews will ultimately be trained in the TDS operations, while the technology is being progressively rolled out across other Rio Tinto sites.

For WesTrac Technology General Manager, Alister MacPherson, the progressive rollout has necessitated a range of adjustments within the mining technology team and rollout methodologies. With multiple deployments, WesTrac aims to identify the repeatable parts of the process and ensure adequate resourcing to fulfil the relevant roles and responsibilities.

“We want as much as possible to roll this out as a programme of work rather than a series of individual projects,” MacPherson says.

“That means firstly ensuring we have completed the right training in areas including product management, project engineering and technical support, then developing a collaborative approach between WesTrac and Rio Tinto to ensure the program is rolled out smoothly.”

WesTrac Product Manager – Mining Technology, Gary Scott, says the Cape Lambert project provided an ideal proving ground to develop the rollout strategies that can be extended to other sites.

“Every site and situation is obviously going to have some unique aspects to it, but there is a set of core requirements that will apply across all implementations,” Scott said.

“It starts with an audit on the available machines to understand the current capabilities, then we can spec up the technology requirements to be fitted to those machines.

“Across an operation like Rio Tinto’s, we’d typically expect to see a fair bit of consistency but there may still be differences based on the age of the site and the asset maintenance and replacement schedules.

“Then when we know what has to be done, we can carry out the installation of the various control modules, the remote operator station and ensure the hardware and software is all communicating. It’s quite straightforward as far as system implementations go, but the complexities come with the detail of configuration and constraint management.”

“The system readily interacts with other Cat control systems including MineStar Terrain, so we can set up working parameters including geofencing and avoidance zones. Essentially, those things are the same whether a dozer is being controlled from in the cab or a remote operating station.”

Those operating parameters and control solutions will be vital as the TDS technology is rolled out across Rio Tinto’s mine sites, including its new Gudai-Darri mine. When production commences this year, the site will be one of the most technologically advanced mines in the world and will feature a large fleet of autonomous haul trucks, water carts and drill rigs. In such environments, any manually controlled equipment, whether in-cab or remotely operated, must be equipped to interact with autonomous machines.

While every aspect of the TDS technology and the way it interacts with other equipment is safety focused, Webster expects that in time the operations will see productivity gains too.

“There’s still a lot to understand about how we can be the most productive with this system,” he says.

“Initially, we’re probably going to be counterproductive compared to in-cab operation, but as we’re learning and developing, and as everyone becomes more familiar with the new way of operating, the added comfort and control will lead to operators being even more productive than we are today.”

Cat improves efficiency and cost per tonne with 7495 mining shovel upgrades

Caterpillar has updated its 7495 and 7495 HF electric rope shovels with the result being an up to 10% increase in operating efficiency.

Drawing from more than a century of rope shovel innovation, the 2021 Cat® 7495 and 7495 HF Electric Rope Shovels (ERS) combine multiple standard feature upgrades to improve machine productivity, while component enhancements, increased frame durability and improved serviceability help reduce cost per tonne of material moved by as much as 15%.

Dan Wyatt, ERS Product Value Stream Manager, said: “Consistently, our customers tell us machine availability and productivity are primary contributors to their operation’s success. From the full adaptive control system for HydraCrowd™ to more innovative technology and data security, the advances made to the 2021 electric rope shovels reflect our commitment to meeting their needs.

“Many of these improvements are compatible with shovels in the field, so customers can realise these gains through upgrades to their existing fleets as well as new machine purchases.”

A new propel gear case for the 7495 and 7495 HF models nearly doubles the life of propel gear cases in some extreme operating conditions, Cat claims. Precise adjustments to gearing geometry and advancements in tooth hardening enhance gear case durability and productivity. The result is lower total cost of ownership of as much as $8/h when the drive system is replaced at one scheduled time.

Additionally, an ecology drain simplifies oil draining and enables kidney-loop flushing, which reduces abrasion-causing contaminants and oil change frequency.

Updates to the 7495 AC electric drive system deliver greater reliability, improved maintenance access, enhanced safety, and expanded high altitude and temperature capabilities, the company says. A liquid-cooled motion regulator cabinet efficiently dissipates heat generated by electrical components and enables operation at -40°C to +50°C and altitudes as high as 5,250 m without derating.

A faster propel transfer switch cuts lag time by 75% to improve productivity, while common motors in multiple applications means fewer parts to stock, improved parts availability and simplified maintenance, Cat says.

A reconfiguration of the crawler carriage allows drive shaft and tumbler replacement from the outboard side without removing the propel transmission. This slashes maintenance time by days while enhancing safety, Cat says. With this design, thrust loads are evenly distributed on large, tapered roller bearings rather than bronze thrust plates, increasing durability to align with 25,000-hour planned rebuilds, even in harsh environments.

Stress from every load passes through the shovel’s swing rack. This is where an enhanced design includes a single-piece rail casting that eliminates vertical segment cracks to increase durability. The rail provides a uniform path for roller movement, preventing rollers from coming loose and creating irregular wear patterns. The upgraded third rail improves access for inspection and retightening, in addition to providing added support to the thrust rail during operation. New swing girder bushings and girder-to-chassis shim designs offer improved access, reducing service time.

“All major rope shovel structures are built with high-strength steel and rugged castings, joined and thermally stress relieved to deliver reliable operation in harsh mining conditions,” Cat says. “Full penetration, profiled and ground welds are made at critical junctures, and MT, UT and X-ray inspections ensure weld quality. Structures are stress-relieved to prevent cracking, and white painted interiors facilitate inspection.”

Both the 7495 and 7495 HF ERS models now offer a full Cat bill of materials, streamlining the parts ordering process and improving parts availability, the company says.

Technology increases efficiency

Both the 7495 and 7495 HF come standard with Product Link Elite™, which transmits critical machine operating data such as utilisation, location and condition via cellular or site internet connection. Added router functionality helps to protect data security. Advanced productivity tools within Product Link Elite enable a cycle segmentation algorithm, and the combined data allows for advanced analysis of productivity, Cat says.

When linked with the available Cat MineStar™ Fleet, real-time machine tracking produces a comprehensive overview of all equipment assets to assist with fleet management and productivity.

Providing real-time feedback to improve loading efficiency, available MineStar Terrain uses guidance technology and an in-cab display to deliver precise dipper position guidance. Optional MineStar Health delivers critical event-based machine condition and operating data, while its advanced diagnostic and analytic tools improve service efficiency, the company says.

The standard Operator Assist – Enhanced Motion Control simplifies machine operation to promote high production while protecting the machine. This system is designed to yield more reliable crowd rope replacement schedules, full design life for hoist ropes, reduced wear on crowd brakes and longer life for hoist gear case components, according to Cat

HydraCrowd

A new adaptive control system (ACS) – a final piece of a multiphase enhancement initiative for HydraCrowd – delivers up to 25% cost savings on the ACS valve, resulting in up to 5% total cost of ownership saving for the entire system, Cat says. Lower initial costs, rebuildable elements and improved accessibility combine to reduce the time required for replacements. The new design also increases reliability without significantly changing the HydraCrowd maintenance schedule, according to Cat.

The new circulation filter employs two smaller, easily accessed filters that do not require roof panel removal for replacement. More affordable than the previous single-filter design, the new configuration also reduces replacement time, Cat says.

A new filter placed at the pump drive transmission improves filtration of the lubrication fluid, helping to extend the life and reliability of the system by reducing contaminants and decreasing wear. The new pump drive transmission filter assists in reducing unplanned maintenance events to decrease downtime.