Tag Archives: Angus Melbourne

Orica setting digital groundwork to open up new mining frontiers

The integration of a digital backbone into the explosives, blasting and related processes will continue to result in miners accessing new deposits and potentially developing new mining methods, Orica’s Angus Melbourne and Rajkumar Mathiravedu told IM at last month’s MINExpo 2024 in Las Vegas.

Reflecting on a digitalisation journey that started eight years ago, Melbourne – Orica’s Chief Technology Officer – said the original ambition was about taking a very manual process like blasting and digitising the workflows.

“Essentially what we wanted to do was anchor into the design and connect the on-bench activities for a verification process as to where the drill pattern was and how this reconciled with the actual outcome,” he said. “The key was always to link this back to the hub of the machine.”

Bringing data and insights into this equation resulted in better placement of energy (ie explosives), which has since become part and parcel of Orica’s aim of “mobilising the Earth’s resources in a sustainable way”.

The second element underlying this digitised push was the acceleration of automation.

“You cannot automate unless you have a digital foundation,” Melbourne said.

This led to the company – both organically and through M&A – building up a suite of software, sensors and data science applications to enable processes within the explosives and blasting process to be automated.

Just what processes to automate has always been dictated by safety and productivity.

“Getting people off the bench, face, voids, high walls, etc becomes a clear motivator for automating certain processes,” Melbourne said. “It is a bit more difficult on the productivity side of things; you have to be generating value, not just automating for the sake of it.”

From Orica’s initial point eight years ago, the company has progressively moved into adjacencies such as post-blast outcomes, geology and more, bringing the same mindset to each part of this distinct process, while integrating it into the wider work patterns.

Mathiravedu (Orica Digital Solutions Senior Vice President) explained: “What we are seeing in the digital space is the fact that, with blasting, you can either create or destroy value. With all the tools and expertise we have, plus the ability to connect the physical and digital components, we are making the whole process more productive, as well as optimising the use of consumables like water and energy.”

Rajkumar Mathiravedu presenting Next Gen SHOTPlus at MINExpo 2024

And as Orica has opened further to the wider mining ecosystem – think of recent tie ups with Epiroc on the Avatel™ semi-autonomous explosives loading solution showcased at MINExpo or Caterpillar on a potential integration between Rhino™, BlastIQ™ and FRAGTrack™ technologies with Cat® MineStar™ Terrain – its influence across the whole flowsheet continues to expand.

Melbourne said: “If I go back a decade, Orica would have been doing a lot of these things itself…but both Raj and I have worked in other industries that, for various reasons, were collaborative. As a result, we were far more open to working with others.”

This openness is seen with one of Orica Digital Solutions’ latest launch, Next Gen SHOTPlus™, which unlocks the power of the Model Through Time; a cloud hosted, spatiotemporal, digital replica, Orica says. Incorporating the proprietary physics engine, Helfire Damage Model and Advanced Vibration Management solution, Next Gen SHOTPlus enables drill and blast engineers to model and predict blast movement, damage and vibration.

Predictive blast movement modelling is enabled by Predict Physics Engine, allowing engineers to understand the impact of decisions on the post-blast muck pile. The Blast Damage, meanwhile, feature provides 3D damage modelling, allowing engineers to evaluate the predicted damage generated on both blasted and in-situ rock masses.

As the Avatel system loomed over the Orica booth at MINExpo (it was on the adjacent Epiroc stand, see below), it seemed only right to ask about the potential to fully automate the explosives loading process based on the safety and productivity drivers Melbourne outlined.

“The goal is to go fully autonomous,” he replied. “If you look at the safety and productivity drivers, semi-automation advances both of those, but there are opportunities to improve upon both – we are clearly still underground at the moment, which comes with risk, and there are other elements of cleaning, priming and loading that could be accelerated in the development headings through full automation.”

One of the underlying technologies of the Avatel platform is the WebGen™ wireless initiation system, which has been key to unlocking new mining methods and techniques, with numerous case studies detailing a strong value case.

A fully autonomous Avatel unit could do similar, according to Melbourne, ticking that productivity box.

“With full autonomy, you can start to employ new mining methods and go to different parts of the mine you couldn’t previously,” he said. “On a case-by-case basis, you can look at individual mines where they understand the mineralisation that, because of safety constraints, cannot currently be classified as a resource or reserve.

“If we’re able to remove that constraint, we can start to tangibly assess bringing that into a resource or reserve and mining that.”

Orica releases ‘world first’ lead-free non-electric detonator range

Orica says it is taking another step towards its purpose to sustainably mobilise the earth’s resources by announcing the commercial release of what it claims is the world’s first lead-free non-electric detonator range, Exel™ Neo.

Orica, the sole manufacturer of non-electric detonators in the Nordics, has upgraded its premium Exel product range to a safer and more sustainable product by removing lead while maintaining the same consistent and reliable product performance, it says.

Neo is Orica’s new brand for environmentally friendly, sustainable initiation systems products. The Neo range of Exel non-electric detonators is produced using a lead-free formulation in Gyttorp, Sweden, with no lead or lead compounds used in the manufacturing process of the pyrotechnic delay compositions.

In the industry, the Exel non-electric blasting technology range encompasses safety, innovation and excellence and is built based on the Non Primary Explosives Detonator (NPED) technology, successfully used by Orica for the last 30 years. The same as the original Exel range, the newly launched Exel Neo range is designed for use in civil infrastructure as well as surface and underground mining operations.

Orica Chief Technology Officer, Angus Melbourne, said: “Orica’s strategy is to deliver solutions and technology that drive productivity for our customers across the globe. With nearly 150 years of innovation and expertise, we continue to solve the industry’s challenges and are proud to offer a lead-free solution today, while maintaining the same trusted performance, storage and handling benefits. With our Neo range, we are offering a product that is free of Substances of Very High Concern (SVHC).”

Before being placed on the market in Europe, the Neo product range was successfully assessed and approved by the Explosive Notified Body as part of CE-marking certification in the European Union. The new fully lead-free products do not contain any SVHC according to the European Union’s Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) regulation, Orica says.

Among some of the key benefits, the new product range is manufactured close to Orica’s customer base in Europe and includes distinct safety and environmental benefits, with lead or lead compounds removed from the production process and thus eliminated from release into environment.

Celebrating this milestone, Orica Group Executive and EMEA President, James Bonnor, added: “Orica is taking decisive steps to enable our industry’s transition towards a more sustainable future. We have invested in the state-of-the-art equipment in Sweden, including assembly machines and control systems, to ensure high quality of our products. The Exel Neo range is based on our NPED technology that’s been in the European market for 30 years.

“With the Neo addition, we have successfully developed, independently tested and trialled a lead-free alternative that can burn with the same accuracy as our current lead-based delay compositions. Importantly for our customers, independent external tests on timing accuracy and scatter patterns confirm that this new technology performs with the same reliability.

“The full Exel Neo range of non-electric detonators is available for order in Europe today.”

Orica commercialises Cyclo automated used oil recycling service for explosives manufacture

Orica has successfully commissioned an automated used oil recycling service that, it says, enables treated used oil from mine sites to be used in the manufacture of quality emulsion for bulk explosives, reducing waste, cost and risks for customers and impact to the environment.

Mine sites where Orica’s site-based emulsion plants are located can now realise the benefits of Cyclo™ – a process that allows customers to transform used oil from heavy machinery into raw material for the manufacture of high-quality bulk explosives, Orica explains. When used in combination with Orica’s proprietary emulsifier technology, Cyclo offers customers a high-quality bulk explosive product, while reducing cost and risk associated with the disposal of used oil.

Delivering environmental and commercial benefits to customers, the fully containerised and automated Cyclo system is capable of treating up to 1,000 litres of used oil per hour and is estimated to reduce up to 800,000 litres in diesel consumption annually per site for customers, the company said.

Orica’s Chief Technology Officer, Angus Melbourne, said: “Cyclo is an example of how we are constantly looking for ways to reduce the carbon footprint for our customers and Orica, while creating value to stakeholders. The benefit of the Cyclo service is its ability to fully integrate into our on-site emulsion plants, enabling used oil from the mine to be directly recycled without leaving the site.”

Locations where Cyclo has been implemented have realised a reduction in diesel consumed in the production of bulk explosives by up to 50%, according to Orica. Additional environmental benefits to customers are delivered by reducing heavy vehicle movements through local communities and reducing carbon dioxide emissions through transport.

Cyclo units are currently installed across several customer sites in Africa and Asia/Oceania – including in Ghana. Further installations in Latin America and more sites across Africa are slated for completion by the end of the year, while a version to suit arctic conditions is being developed for Canada, China and Mongolia.

Orica, Epiroc and Agnico Eagle carry out world-first development charging milestone at Kittilä

Orica and Epiroc, in partnership with Agnico Eagle Mines Limited, have successfully commenced live blasting with Avatel™ – the world’s first semi-automated wireless underground development charging solution at Agnico Eagle’s Kittilä mine in Finland.

The milestone brings to life an industry-driven concept that dramatically improves safety at the face, which is one of the highest risk activities in underground mining today, Orica and Epiroc say.

Avatel enables a single operator to prepare and wirelessly complete a full charging cycle from the safety of an enclosed cabin while offering the best available blast outcomes through the integration of Orica and Epiroc’s flagship digital, automation and blasting technologies.

The first successful blast was loaded and fired on November 22, 2022, comprising 61 Orica WebGen™ 200 Dev wireless primers and 295 kilograms of Orica’s Subtek™ bulk emulsion loaded to a development face at the Kittilä mine.

Orica Chief Technology Officer, Angus Melbourne, said: “Together with Epiroc and Agnico Eagle we are extremely proud of the team in creating a solution that keeps people out of harm’s way during what is considered one of the highest risk activities for underground miners around the globe.

“With Avatel, we can now effectively manage risk for the people who spend the most time every shift directly exposed to hazards at the development face while delivering all of the blast optimisation benefits that Orica’s flagship technologies bring. The combination of digital, automation and wireless blasting technologies and by partnering with customers and peers, we can continue to solve the industry’s biggest challenges across safety, productivity and sustainability, together.”

Sami Niiranen, President for Epiroc’s Underground division, said: “This is a true milestone achieved for our industry where Epiroc in partnership with Orica have led the way to safer underground operation. By building on our recognised solutions and advanced Rig Control System, Avatel paves the way to safe productivity for the mining industry.”

Jari Näsi, Development Manager – Kittilä Mine, Agnico Eagle, said: “We are proud to create history here at Kittilä where the first mechanised and wireless development blast was initiated. There is always some risk when working close to the face; being able to do this work safely and efficiently from the cabin is promising, and mechanising the process will give a better blasting result.”

The first commercial implementation of Avatel will take place at Newcrest’s Cadia Valley Operations from December 2022.

Orica fills gap in Orebody Intelligence portfolio with Axis Mining buy

Orica has entered into a binding agreement to acquire Axis Mining Technology, a leader in the design, development and manufacture of specialised geospatial tools and instruments for the mining industry, as it looks to create a full-service Orebody Intelligence business that positions the ASX-listed company to become what it says is the industry’s first integrated, end-to-end, mine to mill solutions provider.

The acquisition represents a highly strategic acquisition and a valuable addition to Orica’s Digital Solutions platform, it added, saying Axis’ geospatial technology accelerates its capabilities to support new mineral discoveries required for decarbonisation. Axis’ gold and copper exposure also accelerates Orica’s broader commodity mix objectives.

At last week’s Investor Day presentation, Orica’s Chief Technology Officer, Angus Melbourne, highlighted the geospatial area as a “a gap” in the company’s Orebody Intelligence porfolio.

The binding agreement has seen Orica offer A$260 million ($180 million) in cash to acquire 100% of the share capital in the entities that own Axis, in addition to a deferred earn-out payment up to a maximum A$90 million. These amounts are to be funded through the proceeds of a fully underwritten A$650 million institutional share placement.

As part of the deal, Axis’ existing management team will enter into new employment agreements with Orica as part of the integration process.

Orica Managing Director and CEO, Sanjeev Gandhi, said: “Orica’s purpose is to sustainably mobilise the earth’s resources and achieving this starts with a better understanding of the orebody at the start of the mining value chain. I believe that Axis’ differentiated geospatial tools and instruments, combined with our existing suite of digital solutions, will provide compelling orebody intelligence to customers and support the delivery of the industry’s first end-to-end solutions platform, from mine to mill.

“The integration of Axis’ technology and expertise will accelerate our ability to support our customer’s digital transformation efforts around the world, helping them to operate more efficiently, sustainably and safely.”

Axis is a growing business that designs, manufactures and distributes specialised navigation instrumentation, data and drilling solutions for the mining industry. Axis has a differentiated market position, offering a comprehensive suite of tools and instruments to meet customers’ geospatial requirements, according to Orica. Its products are manufactured and assembled at Axis’ UK and Australian facilities, and distributed to over 30 countries.

Orica looks to further improve blast outcomes with latest OREPro 3D release

Orica has released its latest OREPro™ 3D blast movement modelling software for, it says, maximum ore recovery, productivity and throughput.

Developed in partnership with major mining companies, OREPro 3D, is a software application that accurately models blast movement, enabling situational awareness and improved grade control for customers globally, Orica said.

It uses readily available mine data as inputs, including blast designs, in-situ block models and post-blast muck pile surveys. Algorithms then replicate movement dynamics throughout the entire blast volume and calculate SmartVectors™ that accurately transform the in-situ grade control into a swelled post-blast grade control model, the company explained.

Orica Chief Technology Officer, Angus Melbourne, said: “Orica has a vision of becoming an integrated ore extraction mining services company and we are rapidly building a portfolio of digital technologies to augment our core explosives technologies and solutions and better serve customers. This technology is a critical enabler to us building an open, secure and connected digital ecosystem that will allow our customers to accurately model and continually improve blast outcomes and the impact on their downstream operations.”

Understanding where the rock mass has moved, post-blast, is critical to separating ore and waste effectively and creating downstream efficiencies in the mining process, and this has the potential to unlock significant value for customers.

Orica Vice President Digital Solutions, Rajkumar Mathiravedu, said: “We’re excited about the OREPro 3D technology as it complements and will soon integrate with our existing suite of market-leading digital blast design, execution and measurement solutions, including SHOTPlus, BlastIQ, FRAGTrack and ORETrack. The integration of these solutions will offer customer’s unrivalled digital workflow solutions from orebody knowledge through to mineral processing.”

OREPro 3D, which is used by many tier-one miners around the world today, Orica says, will continue to be offered as a standalone blast movement solution or optionally integrated with other Orica products and services to deliver greater insights and optimisation opportunities to customers.

Orica helps clients target specific blast outcomes in real time with 4D bulk explosives tech

Orica has, today, launched 4D™, its latest bulk explosives technology at MINExpo 2021 in Las Vegas, USA.

The 4D bulk system enables the real-time tailoring of explosives energy to geology across a blast, delivering improvements in fragmentation, on bench productivity and an overall reduction in drill and blast costs, according to the ASX-listed company.

The 4D bulk explosives technology will enable Orica’s customers to, the company says, seamlessly match a greater range of explosives energy across a mine’s geology and target specific blast outcomes in real time.

By combining emulsion blended with ammonium nitrate porous prills, 4D supports both pumped and augered loading methods across dry, wet and dewatered hole conditions. An outcome of this unique capability is greater on bench productivity by Orica’s fleet of 4D-enabled Mobile Manufacturing Units (MMU™), without the need to change raw materials in the MMU, Orica says.

Orica Chief Technology Officer, Angus Melbourne, said: “Our 4D capability demonstrates the convergence of our new technologies and solutions, allowing our customers to think differently, mine more efficiently and operate more precisely. By combining our range of advanced digital, formulation chemistry and explosives delivery technologies with our technical expertise, we are able to offer this breakthrough solution that will unlock greater value for our customers across their operations.”

Delivering up to 23% more relative bulk strength for hard-rock applications and up to 43% reduction in soft-rock applications, 4D will enable a broader range of applications, according to Orica.

In hard rock, the extra energy can be used to improve fragmentation in ore blasting, or to expand patterns while maintaining the same energy per bank cubic metre to substantially reduce drill and blast costs, the company claims. In softer geology, the potential of loading significantly lower energy products into wet holes leads to reduced cost and fume risk, as well as better management of blast vibration.

Orica Vice President – Blasting Technology, Adam Mooney, described the solution and the significant change in the application of explosives, saying: “Traditionally blast designs are often driven by powder factor, which is the overall consumption of explosives for the blast, rather than the energy required for different parts of the blast based on geology, resulting in the same type of explosive being applied across a blast pattern regardless of changes in geology or the required blast outcome.

“4D now enables us to consider another dimension – the application of energy in real time matched to the rock strength of the blast pattern as well as the desired blast outcomes, such as consistent fragmentation, fume risk reduction or better vibration control. This is a really powerful technology that will allow customers to manage their drill and blast operations and achieve improved blast outcomes.”

4D will be delivered through MMU’s equipped with LOADPlus™, Orica’s proprietary in-cab smart explosives delivery control system that, it says, enables the ease of manufacture and accurate and efficient delivery of formulated explosives products to plan.

Integration with Orica’s suite of digital blasting technologies including BlastIQ™ and SHOTPlus™ will further enable customers to leverage seamless digital workflows including blast designs and blast quality assurance and control, as well as BlastIQ digital insights to continually optimise blasting outcomes, Orica says.

4D is currently being developed across Orica’s Fortis™, Fortan™ and Aquacharge™ bulk systems. The technology will eventually be applied across Orica’s suite of bulk systems.

The first release of 4D™ will begin with Australia from the end of the year with other regions to follow from 2022.

MINExpo 2021 runs from September 13-15 at the Las Vegas Convention Center.

Orica to unveil WebGen 200 wireless blasting initiating system at MINExpo 2021

Orica says it will unveil its latest through-the-earth, fully wireless initiating system, WebGen™ 200 at MINExpo 2021 in Las Vegas next week.

A development based on more than 2,300 successful WebGen 100 blasts around the world, specifically in underground mines, Orica’s WebGen 200 technology has been designed with customers’ needs and feedback built-in as they look to further improve safety and productivity across their operations, the company says.

WebGen technology provides for groups of in-hole primers to be wirelessly initiated by a firing command that communicates through hundreds of metres of rock, water and air. This completely removes constraints often imposed by the requirement of a physical connection to each primer in a blast and importantly allows the removal of people from harm’s way, it says.

“Engineered to deliver market-leading safety and reliability, WebGen 200 has been built with enhanced capabilities, security and versatility, ensuring it meets the extreme mining conditions faced by surface and underground customers pushing the boundaries of mining’s next frontier,” Orica says.

MINExpo 2021 will take place on September 13-15 at the Las Vegas Convention Center.

Orica Chief Technology Officer, Angus Melbourne said: “We know that as our customers go deeper and move into more complex mining, they are requiring more advanced technology to help them mine differently and continue to extract their orebodies safely and efficiently. That’s where WebGen 200 and our broader technology roadmap comes in.”

WebGen 200 harnesses digital technology to allow advanced features including digital inventory management, delay adjustments before blasting, an improved user interface and increased quality assurance, according to the company. Reliability is further improved with the WebGen 200 primers available to endure even greater dynamic pressure.

Orica Vice President – Blasting Technology, Adam Mooney, said: “We’ve co-developed our second-generation wireless initiation technology, WebGen 200, with customers from across all segments and regions around the world.

“We developed WebGen primarily to reduce or remove employees’ exposure to hazardous environments and improve overall operational safety. But we are also seeing the technology delivering unparalleled improvements in productivity and improved recovery for our customers – it is enabling a step-change in blasting and mining like no other.

“We are excited about what the future holds for the industry with WebGen 200 and know the enhancements made to this second-generation product will improve the customer experience, broaden its application and deliver significant value for customers while enabling the first stages of blast automation.”

The hardware, software and the WebGen 200 units come together as a system that, Orica says, is easily integrated into any operation. It will be available in four product variants and include a wider range of booster weights, opening up new segments, applications and opportunities in both surface and underground mining.

The complete product range now includes the WebGen 200 Surface, WebGen 200 Surface Pro, WebGen 200 Underground Pro, and WebGen 200 Dev. All four variants will be on show in Las Vegas.

The new WebGen 200 suite of fully wireless initiating systems

WebGen 200 Surface and WebGen 200 Surface Pro are specifically designed for surface mining applications, with the Pro version designed for extreme blasting conditions, including revolutionary blasting techniques like Multi-Stratum Blasting, Mining Schedule Flexibility and Lightning Risk Reduction. The WebGen 200 Underground Pro is suited to production blasting, while the WebGen 200 Underground Dev has been designed for mechanical assembly and will enable the automation of underground development charging with Avatel™.

Orica and Epiroc have been developed Avatel, billed as a first-of-its-kind, industry-driven semi-automated explosives delivery system, with a prototype machine currently undergoing trials ahead of being commercially ready by the end of 2021.

The charging solution, enabled by Orica’s WebGen wireless initiating system technology, addresses the final step in the underground development cycle yet to benefit substantially from mechanisation and automation.

It is expected to bring a step-change in safety by eliminating the need for wired connections and subsequent exposure to crews at the face, according to Orica. Instead, the entire charging cycle can be completed by a single operator from within the safety of an enclosed cabin, several metres from the face.

The WebGen 200 development program is progressing to plan with comprehensive verification and validation product testing completed, according to Orica. Field trials are planned and will be completed across multiple mining segments and regions in Australia, Canada, Latin America and Europe, ahead of being commercially available from December 2021.

Orica leverages MWD data, AI to create new blast loading design benchmark

Orica is looking to set a new benchmark for blast loading designs in Latin America after deploying its Design for Outcome solution in the region.

The company, focused on integrating its digital blasting tools to improve outcomes, is leveraging its BlastIQ digital blast optimisation platform within this new solution, Angus Melbourne, Chief Commercial and Technology Officer of Orica, told delegates at Massmin 2020 last week.

In a presentation titled, ‘Blasting’s Critical Role in Extracting Ore’, Melbourne mentioned Design for Outcome as an example of where the company was delivering integrated digital solutions in Latin America.

“Design for Outcome is an automated continual optimisation solution that sets a new benchmark for blast loading designs,” he said. “It utilises data science to process both upstream and downstream data to automate blast designs. This produces tailored and optimised blast designs by reducing blast variability and explosive consumption while increasing productivity.”

Using machine-learning algorithms, Design for Outcome processes measured-while-drilling data to classify ground hardness throughout each blast hole and then match explosives energy to hardness domains to automatically generate tailored blast loading designs, Melbourne explained.

Through artificial intelligence, these algorithms are trained with the data received from the fleet control systems (FMS) and previous blast results. This enables final automation of the blasting design process and its execution in the field with Orica’s smart control systems and programming interfaces, loading the blast accurately according to the generated design. These elements combine to ensure the desired outcomes are achieved, Melbourne said.

“Digitally-enabled blasting solutions such as Design for Outcome are allowing us to work with customers in different ways, to think and act differently and expand our role in the mining value chain,” he said.

Such a solution is part of the company’s plans to automate its segment of the mining process. This goal was strengthened last month with the launch of the Orica and Epiroc jointly developed Avatel™ semi-automated explosives delivery system.

A key enabling technology of Avatel, which is built on the foundation of Epiroc’s Boomer M2 carrier, and Orica’s automation vision is WebGen™, the company’s fully wireless initiation system. When combined with Orica’s LOADPlus™ smart control system, specifically designed on-board storage, assembly, digital encoding capability and Subtek™ Control bulk emulsion, Avatel provides customers with complete and repeatable control over blast energy from design through to execution, Orica says.

While referencing the second key pillar in Orica’s digital strategy, Melbourne highlighted the use of the company’s Bulkmaster™ 7 smart, connected explosives delivery system in Latin America during the virtual event.

The new delivery systems not only improve productivity but begin to digitise critical workflows between design and execution in drill and blast operations, according to Melbourne.

The Antamina copper mine in Peru, a joint venture between BHP, Glencore, Teck and Mitsubishi, will soon be leveraging such a system, with Melbourne confirming seven Bulkmaster 7 units had been shipped to the mine and were undergoing commissioning.

Orica’s third digitalisation pillar is the measurement of downstream impacts of the drill and blast process, which is where FRAGTrack™, the company’s automated rock fragmentation measurement device comes into play.

This device captures, analyses and reports real-time data for optimising blast operations, improving downstream productivity and tracking overall operational performance in mining and quarrying, Melbourne explained.

This system is active across several key customer sites in Latin America, with Teck’s Carmen de Andacollo operation in Chile being one of the first to adopt the technology in the world, according to Melbourne. He said the copper operation is using the insights to deliver efficiencies across the value chain through digitally enabled optimised blasting.

Orica to take CRC ORE’s IES cloud-based simulation technology global

Orica has been selected as the commercialisation partner for the Cooperative Research Centre for Optimising Resource Extraction’s (CRC ORE) Integrated Extraction Simulator, a cloud-based software platform designed to reduce the use of energy and water in mining through the application of simulation, optimisation and machine learning.

The award followed a competitive selection process, with the global mining explosives and services giant set to take the reins of the platform’s growth strategy from July 2021, with plans for global expansion of the technology.

Orica’s interest was initially driven by IES’s introduction of blast simulation into the mineral processing value chain, CRC ORE said. While mine operators can use controlled blasting techniques as an effective augmentation of the rock breakage process, Orica also saw the wider application of IES as an obvious fit with its expanding digital solutions offer across the whole mining value chain.

“By harnessing the virtually limitless scalability available through cloud computing services, mining companies can now use IES to configure multiple design options for a mineral processing plant,” CRC ORE said. “IES then tasks each design and simulates its performance for every day of operation over the life of a mine. This high-resolution simulation of each design leaves no stone unturned in the pursuit of optimal mineral processing.”

Orica intends to expand this capability into a global solution for mining companies, enabling them to design their mineral processing using IES, and then leverage IES’s capability every day to drive continual operational improvements.

CRC ORE Chief Executive Officer, Dr Ben Adair, said having a company the calibre of Orica as commercialisation partner is testament to the enormous opportunity and benefits that the simulator provides to the mining industry.

“We have worked with our Participants over many years to refine our simulation platform,” Dr Adair said. “As a foundation Participant in CRC ORE, Orica shares our commitment to optimising resource extraction and our passion for the continued development of the simulator.

“The scale offered by Orica’s global reach, in addition to its sustained investment in research and development and unwavering focus on innovation, makes it the ideal custodian of IES.”

Orica has been evolving towards its vision of an integrated ore extraction mining services company, with this vision including investing in digital solutions where continuous innovation and open integration with other industry systems across the mining value chain are key to the delivery of whole of mine optimisation for customers, CRC ORE said.

Orica Chief Commercial and Technology Officer, Angus Melbourne, said Orica is primed to take the simulator global and continually evolve the technology to meet the ever changing needs of the industry.

“This is a great example of industry collaboration developing solutions to industry level problems, and we are extremely proud to be part of it,” he said. “It is a fantastic opportunity to continue Orica’s 11-year relationship with CRC ORE and further expand our digital solutions offering by combining our blasting domain expertise with this leading simulation technology to customers and beyond worldwide.”

Orica Vice President Digital Solutions, Rajkumar Mathiravedu, said: “From a technology perspective, we see enormous synergies with our existing blasting and measurement solutions, including BlastIQ, FRAGTrack and ORETrack. We are also excited to integrate our automated, data science enabled blast design technology and solutions with IES, offering end-to-end digitised workflow solutions from orebody knowledge through to mineral processing in an open, secure, and connected platform.”

CRC ORE’s team of developers and consultant engineers will integrate into Orica from July 2021 and will continue to be led by CRC ORE’s current General Manager for the simulator, Nick Beaton.

Beaton said: “IES is now at the right point in its development to become commercially sustainable while continuing to develop new capabilities. It will be thrilling to continue this with Orica.

“We have demonstrated that the simulator can improve the value of major mine sites by some 5-6; this is significant for the mines using the simulator and for the whole industry.

“Optimisation of processing operations by use of IES will also enable step-change reductions in power and water consumption, while greatly improving recoveries of marginal ores, all contributing to the future sustainability of mining operations.”

The transition of the IES business to Orica will take place in the middle of 2021 when CRC ORE’s term comes to an end. In the meantime, CRC ORE and Orica, together with industry partners, will continue developing innovations to drive continual improvements throughout the mining industry. Continuing this innovation, Orica looks forward to IES participation in the next iteration of the Amira P9 project.