Tag Archives: Drill and blast

NQ Minerals acquires Beaconsfield mine, plots new underground decline

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NQ Minerals has added the historic Beaconsfield gold mine, in Tasmania, Australia, to its growing portfolio, with the London-listed company saying it plans to recommission the processing plant and re-develop the underground mine with a new decline.

The company announced this week that it had signed all necessary agreements and made the necessary payments to purchase and take immediate possession of the Beaconsfield mine.

The mine has historic production of circa-1.8 Moz of gold averaging around 15 g/t to its name, and was closed in 2012 due to the low gold price at that time.

“The gold price has since increased by over 100% and the company plans to re-open the mine as soon as practicably possible,” NQ Minerals said.

The 350,000 t/y processing plant, which is currently under care and maintenance, will be recommissioned as part of this plan.

NQ Minerals strategy for re-opening the underground mine, meanwhile, involves developing new modern mine decline access into the existing Beaconsfield mine from surface to reconnect into the existing mine workings at the lower section of the orebody, which comprises all of the current stated gold resources, the company said.

“This new decline will be capable of running large modern mining equipment and men/materials/rock from surface to anywhere in the mine underground workings and will allow for the most efficient low-cost operations possible,” it said.

The main decline currently in the mine is a 5 m x 5 m access way (running down at an angle of 1 m for every 7 m in horizontal length, pictured) that starts 400 m from surface all the way to the bottom of the mine at 1,200 m from surface, according to a NQ Minerals spokesperson.

“The main shaft that accesses that decline is now out of use and is part of the Beaconsfield Heritage Museum,” the spokesperson clarified.

The plan is to run a new 6 m x 6 m decline from surface (popping out near the processing plant) and connect it to the old decline at 400 m depth at the bottom of the Hart Shaft, according to the spokesperson.

“This way, we can run very large diesel trucks (50 t capacity), large front-end loaders and big drill and blast equipment from surface to anywhere in the mine,” the spokesperson added.

Up until 2012, all the big mining equipment had to be dismantled and taken down the old shaft in pieces and re-assembled at the 400 m depth level before it could get used. This big equipment is still down the mine, according to the spokesperson.

“This old way of getting mining equipment down the mine was very slow and very expensive,” the spokesperson explained.

“The other good thing about a new access to surface is the mine can also have smaller-sized equipment easily moved around the mine for mining of the gold orebody, ie equipment suitably sized for the job it has to do,” the spokesperson said.

“The combination of the above is that this will enable economies of scale and economies of suitability.”

NQ, which is currently increasing production at its flagship Hellyer gold mine in Tasmania, Australia, announced a new JORC-compliant mineral resource estimate of the lower section of the Beaconsfield gold mine of 1.454 Mt grading 10.3 g/t for 483,000 oz of gold, earlier this year.

David Lenigas, NQ’s Chairman, said: “Beaconsfield is an exceptional high-grade gold asset and will provide a solid platform to bring the company’s second mine in Australia into production.

“The company is now focused on bringing the Beaconsfield gold processing plant back into operational status as soon as practicable. The mine has a long and rich history in northern Tasmania, and we understand the importance of this heritage. We are looking forward to bringing jobs and economic activity back to Beaconsfield.”

BME ups blast design ante with new mobile app

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BME has launched a new, free Blasting Guide application for Android mobile devices that, it says, enables users to rapidly calculate and check blast designs.

Currently available for download from the Google Play Store, the new BME Blasting Guide mobile app replaces traditional paper booklets carried and referenced by in-field users, BME says. It includes a blast design calculator, quick calculators and prediction calculators. Other app features include surface blast design rules of thumb, environmental guidelines, a table of common rock properties and a BME contact directory per country.

“The new app is an integral part of BME’s pioneering approach to harnessing the power of digital technology in the blasting sector,” Christiaan Liebenberg, Software Product Manager at BME, said. “This platform gives our Blasting Guide a mobility and ease of use that makes a blasting engineer’s job easier and more productive.”

Liebenberg said that while the app is not a blast design tool, it is a powerful means of verifying blast design outputs and making important blast planning decisions.

BME Global Manager Blasting Science, D Scott Scovira, said the blast design calculator is a series of guiding formulas that allows a blaster or engineer to plan a blast from start to finish.

“The blast design calculator utilises user inputs including burden, spacing, stemming height, sub-drill, hole diameter, bench height and explosive type to determine explosive loads, powder factors and other outputs,” Scovira said. “It could be used, for example, to investigate potential blast patterns for a greenfield site, where numerous scenarios can be quickly generated and calculations checked.”

Scovira added that the rules of thumb table – which summarises surface blast design guidelines – can be referenced by users as they access the blast design calculators.

The quick calculator includes a BME in-house formula for the target powder factor, as well as calculations related to the volume of rock to be blasted – either volume per hole or volume per blast, BME said.

There are energy equations to compare different types of explosives based on their relative bulk strength, while hole-charging equations determine the mass of explosives going into a hole and address loading with gassed emulsion products, according to the company. This helps determine column lengths and stemming lengths – with gassed and ungassed explosives.

“The app’s prediction calculators include estimation of peak particle velocity and maximum charge weight per delay based on industry standard scaled distance equations and user defined ground transmission constants,” BME said.

One of the prediction calculators can provide the user with guidance in estimating the blast clearance radius. This is based on maximum projected rock throw, calculated from scaled depth of burial equations and parameters. The scaled depth of burial equations and parameters are propriety to world recognised blasting consultant R Frank Chiappetta of Blasting Analysis International Inc and used by BME with permission, the company clarified.

“In line with its strategic commitment to collaboration in the digital space, BME engaged VIGA Interactive to create a world-class user experience and design, as well as Sympl Technology Solutions for the development work,” Liebenberg said.

Kinross Gold and acQuire collaborate on new blasthole sampling app

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Kinross Gold has collaborated with acQuire on the development of a new mobile data capture solution for its GIM Suite 4.2 release.

The gold miner was looking for a mobile solution for blasthole sampling it can trust and, as a long-time GIM Suite user, it welcomed the opportunity to work with acQuire on this new development, acQuire said.

“It meant Kinross Gold could provide direct feedback on how the acQuire Arena mobile app was enhanced for blasthole sampling for open-pit grade control,” the company said.

For acQuire, meanwhile, the collaboration resulted in an industry-specific solution geared towards the data challenges experienced in every day mining.

A team from Kinross’ Round Mountain open-pit grade control operations, in Nevada, USA, participated in the project. This team consisted of key stakeholders involved in the site’s data systems. The team not only provided input into requirements but also engaged in the beta testing phase of GIM Suite 4.2 and the Arena mobile app to ensure the solution worked for grade control requirements, acQuire said.

Round Mountain mine site in Nevada, USA (Credit: Kinross-Gold)

Ian Dickie, Senior Geologist at Kinross Gold, said: “Working with acQuire offered a unique chance to provide feedback directly to acQuire developers regarding the design of this application.

“This created an opportunity for Kinross to provide insight into real-world requirements for both the application design and the user experience.”

Steve Mundell, acQuire’s Director of Product, said having a collaborator like Kinross Gold provided guidance from an industry perspective during the product development phase.

“We took their needs into consideration along with all the other knowledge we have gathered around the problem of sampling open-pit blastholes,” he said. “Having a real-life application of the Arena mobile app as part of our testing showed us firsthand what worked well and where we needed to refine the software.”

Challenge: data capture for open-pit grade control

The Kinross Gold team wanted to move to a better way of working when capturing blasthole samples. It currently logs on paper, a method deemed inefficient and prone to error, acQuire said.

The goal was to find a digital solution to speed up the time it takes data logged in the pit to become available to downstream grade control processes like modelling and ore blocking.

To achieve the broader goal, Kinross was interested in several capabilities:

  • Ability to work offline because connectivity in the pit is unreliable;
  • Reduction of inadvertent errors caused by transcribing handwritten data logs;
  • A way to reduce the lag between users logging data in the pit and capturing the data in GIM Suite; and
  • Speedier availability of blasthole sampling data for downstream modelling and decision making.

acQuire said: “acQuire’s GIM Suite 4.2 was designed to create a seamless interface for grade control so pit samplers could work faster and more accurately. The Round Mountain project provided a real-world application for beta testing and helped improve the overall user experience in the updated Arena mobile app.”

The collection of blasthole assay data is imperative for grade control modelling and creating ore cuts, according to Dickie. “It is the crux of ore handling procedures.”

He added: “We cannot always rely on network access in the field, so the online/offline data entry creates a more robust mechanism to collect information, which regularly determines the economic viability of an ore block.”

Solution: extend capability to include blasthole sampling

Enhancements to acQuire’s Arena mobile app were instrumental in creating a seamless digital experience in the GIM Suite 4.2 release, according to acQuire.

The following new and improved capabilities were put through their paces by the Kinross Gold project team to ensure suitability in a production environment:

  • Working offline in the pit with seamless synchronisation back to the server once network connectivity is established again. This includes the ability to define which specific pits, benches and blast patterns the pit worker would like to take offline with them;
  • A map of the blast pattern within the logging interface so the pit worker can see which holes have been logged and select their next hole to log as they walk along the pattern;
  • Responsive layouts to optimise the screen for a range of different device types and orientations. This provided the ability for views like a landscape tablet layout, with the blasthole map always displayed; and
  • Built-in barcode scanning for entering sample IDs, using the device’s camera to ensure accuracy and speed during data capture.

Results: user-friendly blasthole sampling in open-pit mining

Reviewing and providing feedback on the new Arena mobile app proved to be incredibly useful to the Kinross Gold team to ensure it is fit for the rigours of open-pit mining, acQuire said.

“The interface design has a very user-friendly functionality which allows users to select blastholes quickly and enter sample data efficiently,” Dickie said.

“This creates a smooth workflow in the field, and a more pleasant experience for users. The ability to take data on/offline is very smooth with this new application, which in my opinion strongly mitigates the risk of data loss as well as saves labour, when compared with previous offline data entry processes.”

Mundell added: “It’s exciting to see our product enhancements come to life in a real-life application. Kinross Gold was excellent to work with and provided a lot of thoughtful feedback that helped improve the user experience.

“We’re looking forward to continuing our collaboration with Kinross Gold in future releases of GIM Suite.”

Dyno Nobel takes aim at underground mine development challenges with EZshot

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“Companies traditionally see mine development as a means to an end. You just want to get it done to get to the ore.”

Paul Klaric, Technical Manager at DynoConsult, Dyno Nobel’s specialist consulting division, is right. Mine development is all about metres per day/month. The accuracy of the drill and blast patterns, or the stability of the drives that are created, rarely feature in quarterly updates or investor presentations.

Yet, this short-term thinking – typically related to the need to improve a project’s payback period – is costing the industry millions of dollars of sustaining capital.

Dyno Nobel Vice President, Product and Applications Technology, David Gribble, explains: “There are some applications where you carry out this development and you come back a few years later and look to either rehabilitate or create new drives off of it.”

In underground mines with challenging ground conditions where drilling and blasting practices are lacklustre, this can create safety concerns.

“Companies are trying to mitigate any safety issues by working to remove people through automation and technologies such as wireless initiation – which is great – but we are of the opinion that part of the reason for these technologies is that the drives were damaged in the first place,” Gribble told IM. “If we can create competent drives with minimal damage from the off, then a lot of the issues that happen down the track – which we’re trying to mitigate against – should go away.”

This is where the company’s EZshot® electronic detonator comes into the mine development equation.

Offering users the benefits of accurate electronic timing without the complications that come with wired systems, EZshot has been designed with underground perimeter blasting in mind.

Utilising shock tube for signal transmission which Dyno Nobel has been producing since the 1970s, EZshot comes in a new colour with the same J-hook connection as NONEL, meaning no new training is required.

Factory-programmed delay times can range from 1,000 to 20,000 milliseconds, with long-period delay timing ideal for underground perimeter blasting, according to the company. This is helped by the electronic initiation unit inside the detonator, which eliminates scatter – an inherent property of traditional pyrotechnic systems, to ensure firing occurs at the pre-designated delay time (see video below).

These design elements all help confront the issue of overbreak in perimeter blasting, according to Klaric.

“A good measure of well controlled, smooth blasting is when you see ‘half barrels’ left behind, which are remnants of the holes that were blasted in the rock mass,” he told IM. This is sometimes witnessed in competent, homogeneous rock masses, but rarely spotted in poor, challenging ground where there is faulting, jointing or discontinuities.

“In such ground, there is greater potential for overbreak and damage after perimeter blasting,” Klaric said.

Gas from the explosives can be forced into the rock mass behind the blast design profile, he said, which can become a real hazard and precondition the ground.

Klaric explained: “Your profile might come out as designed, but there could be more damage beyond the perimeter. As you go to install your ground support, there is potentially an area of the drive where the ground support is going to prove ineffective.”

It is these challenging rock conditions where EZshot could provide the most value to miners, according to the company.

In fact, in trials at an underground mine where variable ground conditions and temperatures were observed, a 12% overall reduction (from 22% to 10%) in overbreak was observed with a switch from NONEL LP to EZshot detonators.

Operators witnessed visible half barrels in poor ground where they had never seen them and full profile half barrels in good ground during these trials, Dyno Nobel reported.

The benefits did not end there.

There was a measurable reduction in the volume of material scaled off the walls after using EZShot – thanks to the improved blasting profile – and initial calculations indicated a positive $/m benefit to development mining costs, according to the company.

Drill and blast overbreak reconciliation is another benefit of EZshot, Gribble says.

“When you just use pyrotechnic detonators, you are likely to break past the perimeter and then you have no idea of where you drilled,” he explained. “How do you then improve something you cannot measure?

“In a lot of cases, EZshot will tell you exactly where you drilled and if the perimeter holes were in or out of design. You can then look to improve from there.”

This could have positive knock-on effects for the rest of the development cycle – not just in terms of speed, but also cost.

“If you are starting to improve and get consistency in your blasting and the drives you are delivering, you can start to consider adapting your rock support measures,” Klaric said.

For example, removing six or seven roof bolts per heading due to the improved blasting profile could see costs drop by A$3,000-4,000 ($1,958-2,610) per heading, he explained.

“It’s going to take time, but the potential is there for consistent results throughout the whole mine life cycle and to look at the drilling and blasting procedure at a much more forensic level,” he said.

While these benefits are applicable in all forms of mine development, it is long-life operations that are set to reap the most rewards from a switch to EZshot.

“This could be your block cave, or panel cave type of operations where some of those drives might be in place for 30-50 years,” Klaric said. “If you get development right in these applications, everything else will be right down the line.”

This means the South American copper industry – one that is progressively moving underground as operations mature – could be a potential market for EZShot. There are also a few famous block cave mines in Asia that could reap some serious value out of the product.

For the time being, the company is focused on further trials, which will provide the statistical firepower to get more miners to notice the product’s potential.

In Queensland, it has recently managed to conduct a few trial blasts, despite COVID-19 restrictions.

And, in Western Australia, EZshot has made an appearance at Silver Lake Resources’ Mount Monger gold operations, helping the company with the portal breakthrough at its newest mine, Santa (pictured, left. Photo courtesy of Silver Lake Resources).

It has also trialled and used the product in the US and Canada, according to Dirk Van Soelen, Vice President of Initiating Systems Technology at Incitec Pivot, Dyno Nobel’s parent company.

Even during these testing times where travel is restricted, there is potential for further trials thanks to the product’s ease of use.

Van Soelen said: “Normally when you bring new technology in, you have to support the technology to the hilt.

“There is an element of that in EZshot as you want to get the measurements and feedback from case studies, but the beauty with it is you can send someone a box and they can use it tomorrow in the same way they use their current product.

“It is a seamless technology transition from the user’s perspective.”

Van Soelen concluded: “I think a big part of the appeal of EZShot comes from the fact that you get ease-of-use and repeatability with this product.

“This repeatability, from blast to blast, takes the emphasis off the blasting procedure and provides the opportunity to look at many other potential savings and efficiencies within the other processes.”

Epiroc Pit Vipers pass automation test at Boliden Aitik

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To help increase productivity, efficiency, and safety at its Aitik copper mine, in Sweden, Boliden has looked to leverage advances in autonomous drilling.

The mine has plans to raise production at the open-pit copper mine to 45 Mt/y this year, from 36 Mt/y previously.

To meet this target, Boliden needed to increase production from its fleet of five Epiroc Pit Vipers at the operation, the mining OEM said.

“The traditional and obvious solution would be to invest in additional Pit Vipers,” Epiroc said. Instead, Boliden looked to see if utilising automation and operating its fleet with teleremote, and semi-autonomous single-row Pit Vipers, could provide the needed boost.

“One reason to convert to remote and autonomous operations is the opportunity to reduce non-drilling time, increase utilisation and gain productivity,” Epiroc said.

Aitik is one of Europe’s largest mines with a massive pit visible from space, according to the equipment maker.

Peter Palo, Project Manager at Boliden Aitik, explained: “Its depth is 450 m and it has a width of several kilometres, requiring 15-20 minutes of driving time for operators to travel to and from the surface level. There is also a satellite mine even further away. Lunch breaks in production can last for an hour.”

Another factor taken into consideration is the harsh arctic winter climate, with snowstorms and biting cold that reduces visibility, and increases the need for safe workplace conditions. Both Boliden and Epiroc were curious to see whether automated Pit Vipers could handle these conditions, Epiroc remarked.

The first step in this transition was to perform a test with one of the Pit Vipers, converting and upgrading the machine for remote operation.

A meeting room in the mine office building was converted into a temporary control room, and the WLAN in the pit was updated and fortified to increase coverage and bandwidth.

Boliden staff were trained to operate the Pit Vipers by remote control, with the primary key performance indicators yielding positive results, according to Epiroc. On top of this, the Pit Viper automation technology received positive feedback from the operators.

Fredrik Lindström, Product Manager Automation at Epiroc, said: “There’s more to converting to automated operations than you’d think. To enjoy the full advantages of automation, you have to systematically change and improve routines, adapting them to the new processes. The lion’s share of the work involves getting people to change their habits to reach the common goal.

“Boliden has done a tremendous job laying the groundwork for the necessary process changes.”

The next step involved converting the other four Pit Vipers for remote operation while upgrading the first Pit Viper to handle single-row autonomous operation. The automation, in this case, entails the operator initiating the process, leaving the Pit Viper to drill a whole row of blast holes on its own and moving autonomously between drill holes. Once the row is completed, the operator moves and prepares the machine for the next row of holes.

Comparing the semi-autonomous single row Pit Viper with a fully manually operated machine, under optimal conditions, Boliden has measured a utilisation increase from 45-50% to 80%, as well as a 30% increase in productivity, Epiroc said.

Palo said: “We’re very pleased with the results, which is why we’re converting the rest of the Pit Viper fleet to remote operation as a step towards further automation.”

The operators handled the transition to remote operations exceptionally well, Epiroc said, explaining that the onsite operations control system was designed to mimic the Epiroc Pit Viper onboard controls with the same configuration.

Palo added: “We’ve been running by remote for a year now, and everyone is happy.

“Some of the operators were wary about learning to use the technology, but that settled quickly. They appreciate working together in a control room in the office building. It’s a better work environment, easier to exchange experiences and socialise.

“Handling the winter climate was also a cinch, despite heavy snowfalls and low temperatures for days on end. Even the laser-based Obstacle Detection System coped splendidly during snowfall. The automated systems seem to withstand arctic conditions very well.”

Minnovare’s drill & blast optimisation software logs new milestone

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Minnovare’s CORE product has hit a milestone as the software component of the company’s Production Optimiser system continues to benefit from an increasing number of customers looking to improve their drill and blast operations.

CORE has now logged one million metres of drilling data since the platform’s launch just under a year ago, Minnovare said.

The Production Optimiser system, suitable for installation on all production rig makes and models, “substantially reduces blasthole drilling deviation – which in turn reduces average dilution and downtime (including reduced secondary drill and blasts), whilst improving overall fragmentation and ore recovery”, the company says.

The CORE drill data hub syncs seamlessly with mine planning and drill & blast software (including Deswik, Aegis and Vulcan/Maptek), according to the company, ensuring improvements are seen throughout the production cycle.

Ryan Stimpson, Minnovare Head of Engineering, said: “Every meter provides important insights for our client’s drill and blast operations – precise dates and times, precise drilling locations (compared to the design), and by which drill rig and which driller.

“Maybe best of all – the entire process is captured without the need to decipher questionable handwriting or water-smudged ink like under the old paper plan/plod system!”

With Minnovare CORE, engineers can import drilling assets (rigs), schedules and drill and blast designs from mine planning software – down to the individual hole – and then export them as a digital drill plan (Digi-Plan), accessible by drillers via a touchscreen-tablet mounted onboard the rig, according to Minnovare.

Drillers log actual drill data (including meters drilled) into the tablet and, at the end of each shift, a digital plod (Digi-Plod) is then synced back to CORE, ready to be analysed by engineers and charge-up crews.

“With Minnovare CORE, Digi-Plan and Digi-Plod, engineers and drill teams benefit from a more streamlined, more accountable, data-driven system that improves performance visibility and ultimately productivity across site,” the company said.

Stimpson added: “This level of uptake confirms that CORE is already a critical part of the production cycle for our clients. We’ll continue to listen carefully to feedback from Minnovare CORE users on how to improve the software in a way that positively impacts their role and the productivity of the mine.”

BME to capture blasting efficiencies and cost savings with AXXIS TITANIUM

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BME says its advanced electronic blast initiation system is undergoing final trials in South Africa, with a 100% success rate to date.

The AXXIS TITANIUM™ system, the latest generation of BME’s AXXIS™ blasting platform, is expected to be launched later this year as a successor to the company’s GII version. According to Tinus Brits, BME’s Global Product Manager for AXXIS, the latest product is certified for trials in terms of South Africa’s Authorised Recommended Process 1717 standard and is being field tested with the permission of the country’s Department of Mineral Resources.

“The upgraded system has achieved trial certification from the first phase of testing, receiving a six-month trial period confirming that it is safe to use,” Brits said. “Trials are now proceeding under the control of BME, so that we can build up a history of performance data – which, to date, has been faultless.”

He said the trials have been conducted on seven relatively small sites around the country since February 2020, using up to about 500 detonators per blast. These trials will continue as and when COVID-19 lockdown restrictions allow, BME said.

“After about six months of trials are completed, application can be made for final certification from the regulator,” he said. Trials were also likely to be extended to international locations as travel regulations open up, according to BME.

Andries Posthumus, Product Development Manager for AXXIS, said AXXIS TITANIUM’s functionality – with a three-in-one blasting box that can also be configured as a control box or as a repeater box – allows a larger number of boxes to be easily linked, as well as many more detonators. This improves efficiencies in blasting and saves time and cost for customers, Posthumus said.

“Even with this additional capacity, the system speeds up the logging process, while allowing on-bench logging and testing of up to 500 detonators,” Posthumus said.

The robust blasting box also benefits from even stronger shell technology, which is matched by tougher downhole cables, according to the company. In terms of digital data transfer and storage, the system’s NFC communication protocols allow faster wireless transfer of files between loggers, with data stored and managed in the cloud.

The latest upgrade promises to provide mines with a significant productivity opportunity, Brits said, while demonstrating BME’s commitment to safety and continuous technological innovation.

BME looks to improve load and haul efficiency with new BLASTMAP tool

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As part of its continuous development of digital solutions, BME says it has further enhanced its BLASTMAP™ blast planning tool with an added burden relief timing module.

D Scott Scovira, Global Manager Blasting Science at BME, said this new burden relief feature gives the blaster better control over the shape and movement of the blasted rock muck pile, adding that this has knock-on benefits for the excavation fleet.

“If the mine is using a loader and truck fleet, for instance, the blasted rock will need to be laid out lower – and longer burden relief times tend to be used in the blast,” he said. “For a truck and shovel configuration, on the other hand, the muck pile would need to be stacked up higher, usually requiring tighter burden relief times.”

The new feature augments a range of BLASTMAP tools that have added value to BME’s customers for many years, integrating with BME’s AXXIS™ and XPLOLOG™ systems, the company said.

AXXIS allows blast technicians to program a detonator with the desired time delay, while XPLOLOG allows users to view, capture and sync drill and blast data to a cloud database for real-time access to preparation progress on the blast block.

BLASTMAP allows for initiation timing design, initiation sequence simulation, blasthole loading design, fragmentation distribution predictions, vibration prediction and blasted rock range prediction.

BME said: “While initiation timing design enables the design of blast initiation sequences and facilitates programming of the AXXIS system, the initiation sequence simulation allows the user to check for correct hole firing sequence and pick up any potential out-of-sequence firings. The blasthole loading design module – covering the explosive load, booster and initiation system – is also capable of designing decked hole loading.”

For fragmentation prediction – where one of three equations may be chosen – the software allows site-specific or general rock properties to be entered into an editable rock properties database, according to BME. Additionally, the fragmentation models may be calibrated with data from physical fragmentation distribution measurements.

Scovira said: “Fragmentation distribution is vital to quality blasting, going hand in hand with a mine’s machine productivity in loading and hauling. One step further is to optimise fragmentation distribution for the crushing and milling circuit, to improve throughput and recoveries.”

The vibration prediction tool, which generates a predictive isomap of vibration levels around the blast, ensures that blast vibrations do not exceed regulatory or self-imposed environmental constraints, the company said. BLASTMAP also includes an advance through-seam design module, to design explosive loads and initiation times in multiple dipping coal strata.

And BLASTMAP can use data from a range of sources, according to Tinus Strauss, Senior Software Engineer at BME.

“Data can easily be imported from third-party software through our import wizard,” Strauss said. “This allows any text-based file to be used – as well as specific formats like DXF files – conveying data on parameters such as block-out lines on benches, hole depths and charge.”

SRG Global wins drill and blast contract from Saracen Mineral Holdings

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SRG Global says it has been awarded a five-year, circa A$70 million ($43 million) contract from Saracen Mineral Holdings to carry out specialist drill and blast services, explosives management and grade control drilling at the Thunderbox and Carosue Dam gold operations in Western Australia.

Saracen has recently become a much bigger entity thanks to the acquisition of 50% of the Kalgoorlie ‘Super Pit’, where SRG Global has provided specialist geotechnical services for over 20 years.

It is also in the process of expanding the mineral processing plant at the Carosue Dam gold operations, which will see throughput increase to 3.2 Mt/y by the installation of secondary grinding equipment.

David Macgeorge, Managing Director, said: “We are extremely pleased to have secured this new, five-year term contract with Saracen who are a major player in the gold sector. We are excited to partner with Saracen to deliver innovative solutions to drive both safety and operational performance. This contract further diversifies SRG Global’s customer base and adds significantly to our long-term work in hand.”

Seequent moves downstream with OreControl software partnership

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Seequent has partnered with OreControl Blasting Consultants, the US-based developer of OrePro 3D software, as it looks to expand its reach into the drill and blast arena.

OrePro 3D software allows geologists to model the movement of ore during blasting in order to delineate ore and waste more accurately for efficient downstream handling, according to Seequent.

“The software’s use of 3D modelling and visualisation techniques revolutionises how geologists determine ore boundaries and select dig directions, yielding significant improvements over traditional 2D methods,” the company added.

OrePro 3D embeds in a mine’s ore control process with seamless data integration with up-stream and down-stream systems, and intuitive workflows, according to the company. The software also contains a tool showing the financial impact of different mining scenarios.

Seequent’s GM Mining & Minerals, Nick Fogarty (pictured), says: “Mining companies continue to look for ways to improve their operating efficiency. By reducing ore loss and dilution, more valuable rock can be sent to the processing plant. OrePro 3D has already been adopted by many large mining companies who are using the solution to improve yields and operating efficiency, which in turn reduces the operation’s environmental impact.

He added: “This is another area where best of breed geoscience modelling techniques and 3D visualisation create value for our customers.”

William Hunt, Co-founder and President of OreControl Blasting Consultants, says: “By accurately highlighting where the pay material is located, post-blast, and then optimising dig blocks accordingly, operating efficiency and commercial returns can be dramatically improved. The value of additional recoveries after a single blast can represent an immediate return on investment and resources can also be extracted using less energy and water.”

According to Hunt, OrePro 3D can be used without direct measurement, which removes the need for transmitters and the need to put staff onto risky muck piles.