“The primary objective for our DoE project was to produce a concentrate containing a minimum of 2 per cent rare earth elements,” Honaker said in a university press release. “We have far exceeded this objective.”

He explained that the process recovered more than 80 per cent of the REEs present in the feed sources. The concentrates were comprised of more than 80 per cent total rare earth elements on a dry whole mass basis and more than 98 per cent rare earth oxides. Also, elements such as neodymium and yttrium, commonly used in national defense technologies and the high-tech and renewable energy industries, represented over 45 percent of the total concentrate.

In parallel, scandium was efficiently separated from the other elements through this new recovery process. The rare earth, which is highly used in aerospace and lighting, was also concentrated as a separate product from the circuit.

The groundbreaking process will be part of a one-fourth-tonnes per hour mobile rare earth recovery pilot scale plant being developed and tested by Honaker’s team.