Tag Archives: Edge

Newcrest’s Brucejack mine set for full fleet battery-electric transition in Q4

Environmental, Mine operation news, Mining equipment, Mining services, Power supply for mines, Precious metals, Sustainable mining, , , , , , , , , ,

Newcrest’s Brucejack gold-silver mine in British Columbia, Canada, is set for a full battery-electric fleet transition by the end of the year, the gold miner said in its financial year 2022 results.

Following a successful site trial, seven underground battery-electric trucks are being commissioned at Brucejack, replacing the existing diesel fleet and abating approximately 65,000 t of CO2 emissions through to 2030.

The new fleet will improve truck productivity, lower unit costs and enhance operational efficiency from planning to production, according to Newcrest. Three of the Sandvik 50-t-payload Z50 battery-electric trucks are already in production, with the full switch over expected to be completed in the December 2022 quarter, it noted.

Sandvik and Pretivm previously noted that seven Z50 haul trucks would be supplied to the operation as part of the planned fleet transition.

The project is being partly funded thanks to a C$7.95 million ($6.1 million) investment from The CleanBC Industry Fund.

Brucejack, which became wholly owned by Newcrest when the acquisition of previous owned Pretivm Resources completed earlier this year, is currently the subject of Newcrest’s EDGE program, which aims to drive a culture of innovation, high performance and continuous improvement. The program has identified additional opportunities of approximately C$15-$25 million/y, with improvements in stope turnaround time and more efficient mine operations as the initial focus areas, the company said.

Run-rate benefits from this effort are expected to be fully realised by the June 2024 quarter, Newcrest says.

Newcrest said in the financial results that it was also assessing ore sorting technology at the mine, which aims to classify and separate mineralised material from non-mineralised material to deliver more consistent mill feed grades and increase operational flexibility.

SES and AXESS to connect remote mining operations with O3b mPOWER

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SES and AXESS Networks say they are accelerating the digital transition of the mining industry with a collaboration focused on SES’s second-generation medium earth orbit (MEO) system O3b mPOWER.

Under this multi-year, multi-million-dollar agreement, mining sector users will be able to benefit from the cutting-edge low-latency Onshore Energy & Mining mPOWERED connectivity service, they say.

SES’s Onshore Energy & Mining mPOWERED service will provide the highest throughput available from a satellite system and deliver dedicated and carrier-grade networks to AXESS’ customers reliably regardless of their remote locations. O3b mPOWER can deliver up to multiple gigabits per second per site, enabling AXESS’ customers to accelerate the digitalisation of their operations and sites globally, boosting profitability through access to new applications and efficiency, as well as improving staff safety and welfare.

SES’s second-generation MEO connectivity service also brings the cloud closer to the end customers and can enable edge computing to support the use of 5G and IoT in the mining industry, it says.

Simon Gatty Saunt, Vice President of Networks Sales, Europe, at SES, said: “Transition towards smart mining is already turbocharging profits, and revolutionising industry’s environmental and societal impact. We are proud of the success our partnership with AXESS has already had in facilitating this change, thanks to our multi-orbit GEO and MEO network, and are excited to further accelerate it with the O3b mPOWER service.”

Guido Neumann, President AXESS EMEA, said: “This agreement builds on a long and successful relationship with SES, which has helped us to provide our customers with the best-in-class, reliable and resilient connectivity for their operations. As we are seeing a considerable uptake in demand for the carrier-grade solutions globally, but especially in the EMEA and APAC region, we are honoured to play an active role in scaling the digital transition in the mining sector through introducing O3b mPOWER and the Onshore Energy & Mining mPOWERED service.”

Cat to bolster MineStar Edge platform with Guide and Surface Management additions

Automation, IoT, Mining equipment, Mining safety, Mining services, Mining software, , , , , , , , ,

Caterpillar has added two new capabilities to its cloud-based MineStar™ Edge platform – MineStar Guide and Surface Management.

Accessed alongside Equipment Tracking and Production Recording data from the same office computer or tablet in the field, the additions further augment the Cat® MineStar Solutions suite of technologies.

Edge, Cat says, features the latest technology advancements to measure, manage and optimise mining operations. Using data fusion, machine learning and artificial intelligence, it continues to grow as it collects data, identifies patterns and learns to make decisions.

Guide, available in early 2022, serves as a new platform for high-precision on-board, while Surface Management is an enhanced office platform for Guide, which is currently in development.

Using the advanced capabilities of the Edge platform and the most advanced GNSS technology, MineStar Guide provides the next generation high-precision system for grading and loading operations, according to Cat. Real-time feedback improves operator efficiency and increases machine production.

Featuring a new user interface inside the machine’s cab, Guide offers intuitive operation, which makes it easier to train new operators. Its on-board, dual-receiver system offers improved machine heading and data to increase grading and loading efficiency.

Working through enhanced 3D grade control and design visualisation, Guide provides high-precision block and material identification that is automatically provided to the operator and operations. Grade, block and material designs are also automatically sent to the machine, based on location, to ensure compliance to plan, increase productivity and reduced rework.

Guide offers “stakeless” ore control and regular elevation updates, reducing the need for surveyors in the field to improve safety, Cat says, with the company claiming the enhanced level of automatic blade control provided by Guide will help reduce operator fatigue when grading to design.

Operator and production key performance indicators are sent to the machine through MineStar Edge, empowering operators to stay on schedule.

Guide demonstration units were installed on the Cat 992 wheel loader, Cat 6060 hydraulic mining shovel cab and Cat 24 motor grader displays, as well as inside the technology area, at the recent MINExpo 2021 event in Las Vegas.

3D planning with MineStar Surface Management

Accessed through the integrated MineStar Edge platform, new MineStar Surface Management delivers to the field planning and material information created in the office, Cat says. The next-generation grading and loading platform leverages data provided by Guide-equipped machines for precise execution of planned versus actual production.

With the new Edge platform, Surface Management allows reports to be viewed on office computers or in the field on laptops and mobile devices. Its 3D visualisation of virtual and augmented reality substantially improves project progress viewing, Cat says. The mobile platform gives users the ability to zoom and rotate on particular areas of the site for a more detailed view.

“A powerful material management tool, Surface Management automatically generates fused digital modelling from multiple data sources for improved accuracy,” the company said. “It tracks haul roads, dumps, loading areas and other truck destinations.”

Users can review designs, blocks in progress and as-built areas. Reporting capabilities include timeline advance and comparison with swipe to previous or future and volume calculation. Increasing program flexibility, Surface Management gives customers the freedom to choose the reporting method, according to Cat.

Cat says dozens of mine sites rely on Edge’s Equipment Tracking and Production Recording capabilities with fleet installations ranging from fewer than five to more than 80 machines.

Komatsu looks for productivity Edge with Microsoft partnership

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Komatsu, in order to continue its production momentum in the face of continued market uncertainty, is boosting its manufacturing capabilities and productivity through the use of Microsoft cloud, Internet of Things (IoT) and artificial intelligence (AI).

The company, one of the world’s top makers of excavators, bulldozers, and other heavy equipment, needed help gathering and handling data to boost its own manufacturing capabilities and productivity, turning to the Azure cloud and specialists at Microsoft.

Microsoft said: “Komatsu is an innovative manufacturing enterprise that competes in an increasingly unpredictable international marketplace. Ever-shifting economic and other forces – like booms and busts in resource markets – are constantly pushing demand for its equipment up and down from country to country.

“Maintaining production momentum in the face of this sort of uncertainty can be a big challenge for factory managers.”

Nobuyoshi Yamanaka, General Manager for Komatsu’s Manufacturing Engineering Development Center (pictured above) Production Division, said: “Keeping pace with these fluctuations is our primary issue. The best way to do that is by raising our productivity. And, to do that … we need data.”

With the right data and the right insights, decision makers can visualise situations. From there they can opt to speed up or slow down production runs, manage supply chains, and accommodate factory downtime for retooling and maintenance, Microsoft said.

They can also optimise the use of personnel – a key factor in Japan’s sophisticated manufacturing sector, which is grappling with a shortage of skilled workers as the nation’s demographics age.

Acknowledging that it had a need for data, Komatsu went about seeking advice on what technology and data solutions would be best for its ambitious productivity quest, Microsoft said. “They searched widely and settled on Microsoft.”

Adopting a cloud solution

“Microsoft asked us what we wanted to do and how we wanted to expand the solution in the future, then it gave us exactly the right support,” said Yamanaka whose team is now studying how AI and Intelligent Edge solutions might further boost efficiencies.

The company first set out to collect production data in 2009 by using on-premises servers. Five years later, it went further and launched “KOM-MICS” – an IoT system that collects data from sensors installed on a myriad of machine tools and welding robots.

“Komatsu uses a high-mix/low-volume manufacturing system. Plant equipment is not always operating at full capacity as machines may be down for many hours due to setup changes, and so on,” Yamanaka says. “Visualising this situation and reducing machine downtime increases manufacturing output without extra equipment or personnel. Our ultimate goal is to double productivity while reducing equipment and personnel.”

KOM-MICS was a success. And, soon so much information was coming in that Komatsu realised its on-premises approach to data needed a rethink, Microsoft said. It also wanted to collect and visualise data from a network of outside partners and other factories, both in Japan and abroad, that contribute around 80% of its overall production work.

In 2016, it began looking around for a cloud solution.

A Komatsu worker checks a KOM-MICS screen

Keisuke Tsuboi, from Komatsu’s Numerical Controller Team, Advanced Technology Promotion Office, said: “We needed to roll out KOM-MICS to our partners and overseas manufacturing bases to increase the overall productivity of Komatsu.

“Because KOM-MICS collects 20-30 GB of data from each machine tool per year, adding the required resources to the on-premise system, and increasing the number of connected machine tools, would have been difficult. So, we decided the cloud could overcome these problems.”

Weighing up the options

Komatsu moved its data onto Azure in early 2017. According to Tsuboi, a primary reason behind the choice was trust: Azure has extensive security measures backed by Microsoft’s expertise. It also made Komatsu’s data capabilities immediately compliant with GDPR – the European Union’s new data protection measure.

The flexibility and scalability of Azure were also deciding factors that has allowed KOM-MICS coverage to be ramped up almost seamlessly, Microsoft said.

“We are connecting 100 to 200 extra machines to KOM-MICS per year,” Tsuboi says. “We have around 700 connected machine tools and 350 connected welding robots. Komatsu has around 1,200 machine tools and 700 welding robots that can be connected to KOM-MICS. This scale of data is no problem for our system on Azure.”

Expanding its scope

Komatsu connected its Thai and Indonesian bases to KOM-MICS in 2017. Since then, the number of Komatsu’s partners connected to KOM-MICS has been increasing rapidly.

“The transition to Azure instantly expanded the potential scope of the KOM-MICS rollout. The meticulous support of Microsoft enabled us to complete the migration in a short time,” Yamanaka said.

More data from more machines in more places means the company can improve quality measures, plan and adjust with agility, and better anticipate equipment failure, according to Microsoft.

“Before we started collecting data, we didn’t know to what extent our machines were working within a 24-hour period,” says Tsuboi. “With KOM-MICS, data is visualised so we can work on improving production efficiency by increasing areas with low production conditions to be equal to those that are high.

“By analysing the machine data from a certain production line we have been able to increase the machine operation rate by about 25%.”

AI and the Intelligent Edge

Looking ahead, Yamanaka believes AI on the Intelligent Edge can potentially deliver more productivity dividends, such as freeing up the time of skilled workers and opening the door to predictive maintenance.

“I believe that data can be used in a variety of ways,” he says. “We would like to automatically realise optimal machining conditions and have AI do some tasks that are currently handled by skilled workers.

“Also, there is quality. We would like features that can automatically detect signs of failures before they happen. We need to make use of AI. But because processing data in the cloud takes time, we are thinking about adopting Azure IoT Edge so we can run Microsoft Azure services on IoT devices.”