Because it is the first time the mine has a chance to make big rocks into little rocks. It can be cheaper than crushing and grinding and more efficient if you find the perfect spot between over blasting and under blasting. A continuous measurement of how well your blasting did and how it behaved at the mill will uncover a quick path to the most profitable fragmentation.
MinePortal utilizes the primary crusher as a location-based proxy for blast fragmentation and an indicator of crusher circuit efficiency, which supports the following:
Optimizing ore blending
Further increasing mill throughput
Supercharging mine to mill optimization efforts
The primary crusher is a great indication of how the rest of the mill will behave. Once the material you’ve just blasted goes through, MinePortal will show if the crusher responded poorly or favorably. With this analysis you can make a change in your operations, fast. You can change your blasting based on the drilling that happened this morning or you can change your blend plan based on how the crusher responded with the material you dug yesterday. And that’s how you start to do better with what you have.
The first stage of mine to mill involves location-based information about the orebody. MinePortal integrates these datasets, including geology, drill and blast, ore control, haulage, and the primary crusher.
Since mine to mill optimization relies on the ability to monitor how a specific block of ore impacts the mill, DataCloud uses the primary crusher as a proxy for rock hardness, fragmentation size, and overall mill performance. Quantifying the material’s impact on the primary crusher requires a complex, data intensive analysis of the crushing power consumed by each truck load of material.
Below: Primary Crusher Amps (Black Line) and Truck Dump Tons (Red Line)
Collecting comprehensive knowledge of the rock, including initial geologic conditions and energy applied during drilling, blasting, and crushing, allows operations to build a data-driven mine to mill optimization model. Each truck loaded with a known Blastability and Powder Factor is then quantified for its “Crushability” (black line below).
MinePortal gives everyone seamless access to all location-based information related to the mine to mill process. With a simple browser login, backed by Microsoft Azure, this single source of truth to your geology is available fast, easy, and securely. This improves collaboration by allowing each operation to work with others towards a common goal and to track progress as a team. Engineering time that is currently spent on data manipulation can now be focused on analysis and optimization.
Contact us to schedule a custom demo with how MinePortal can use your geology data to improve your operations.
Hear more about this topic from our Director of Mining Software Solutions, Steven Putt, at the ISEE conference in Denver, Colorado.
Improving Geologic Knowledge
Date: Wednesday, January 29th
Time: 10:30 AM - 11:00 AM
Steven, Director of Mining Software Solutions of DataCloud, has optimized the blasting gamut; from blast technology, drill to mill, high precision blasting, to advanced vibration control. He uses his Mining and Minerals Engineering degree to its full extent with a passion for data management. His career began with BHP, developing processes to track equipment and material. He has experience with Dyno Nobel, Rio Tinto, Kinross, Orica, Barrick, Newmont, ArcelorMittal, and AngloAmerican. Steven has worked at over 40 mines across North America and Australia.Watch Steven's Last Presentation from Mines and Technology Vancouver.
Watch Steven's Last Presentation from MEMO, Kamloops