PERTH (miningweekly.com) – A new mining technique that uses electric fields to extract metals from hard rock ore has been unveiled by researchers from the University of Western Australia (UWA), the Commonwealth Scientific and Industrial Research Organisation (CSIRO), the Technical University of Denmark and the University of Exeter.
The technique could replace the traditional method of digging which results in significant costs to the environment, with global estimates of waste in the order of 100 gigatonnes a year, significantly larger than any other form of waste generated by humans.
Professor Henning Prommer from UWA’s School of Earth Sciences and CSIRO said the technique worked by installing electrodes within the orebody and applying electric currents that could induce the transport of electrically charged metals such as copper through rocks by a process called electromigration.
“The metals are extracted within the orebody, instead of the traditional means of having to dig them out and milling huge amounts of material, a technique which traditionally has placed huge pressure on the environment,” Prommer said.
“Traditional methods of excavating ore material result in a large amount of solid waste brought to the Earth’s surface which needs to be disposed of, whereas this new method dramatically decreases wastage.”
Professor Andy Fourie from UWA’s School of Engineering said the new technique held immense possibilities.
“It will not only improve mining outcomes, it will help us shift towards a more sustainable way of mining,” Fourie said.
The researchers have tested the technique in laboratory experiments and through computer modelling.
After successfully extracting copper from some very tight rock samples they are confident the idea will also work in the field, not only for copper but also for a wide range of other metals.
"This is really exciting because we can use intermittent power sources such as solar and wind to extract minerals,” Prommer said.
The new technique is now being further developed and refined with support from the Minerals Research Institute of Western Australia.