Orica has won an award for its research into ultra-high intensity blasting.
The group's Dr. Geoff Brent and his research team have been awarded the 2014 CEEC Medal by the coalition for Eco-Efficient Comminution.
Brent was congratulated bu Orica managing director Ian Smith, who said "the quest to use chemical energy in explosives to improve ore fragmentation and deliver a step change in mine processing efficiency has been a priority".
“This research is a demonstration of Orica’s commitment to the development of resourceful solutions through innovation to improve mine productivity. The use of electricity to mill ore is usually the largest consumer of energy on a mine site and ore comminution constitutes a significant percentage of electricity consumed worldwide,” Smith said.
“Independent modelling has indicated that increasing the explosive energy by several fold can lead to increases in mill circuit throughput of up to 40 per cent and savings of tens of millions of dollars annually."
Brent explained that to date it has not been possible to blast at these ultra-high explosive energies or powder factors due to both safety and environmental concerns, however it has been needed in mining as by utilising explosive energy in the pit to produce much finer ore miners can increase efficiency and throughput of the downstream comminution processes of crushing and milling.
The overall energy consumption across the mining and milling cycle can be reduced with a consequent reduction in emissions, providing a step-change in ore processing.
"The new technique demonstrated for the first time that not only can these ultra-high energies be safely utilised but they can also deliver improved mine productivity and reduce environmental impacts in open pit mines," Brent stated.
"The key to the breakthrough has been to use the rock itself to contain the explosive energy by the selective deployment of state-of-the-art digital electronic initiation systems in novel blast designs. The new method was thoroughly tested in blast models and then verified in large scale production blasts.
"This breakthrough approach is particularly important given the worldwide trend of decreasing ore grades.More ore needs to be ground and processedin order to achieve production targets and this method has the potential to generate a step change in mine productivity, particularly in complex or lower grade ore bodies.It can render ore bodies that might ordinarily be uneconomic both affordable and practical to extract,” Brent said.
He went on to say the technique has the potential to cut emissions associated with grinding by close to a third.