Category
- Agriculture
- Automobiles and Machinery
- Bank, non banking financing, investment
- Blasting
- Construction
- Consumables
- Education
- Energy
- Engineer , Architecture and Geodesy
- Finance, Audit,Accounting and Brokerage
- Food
- Foreign Trade
- Geology Exploration
- Health
- Information Technology
- Insurance
- Labor Safety
- Legal and Business consulting
- Lighting
- Mining equipment
- Mining Services
- Other product and service
- Road
- Sewing and textile products
- Transportations
- Travel
Events
Electrokinetic mining allows for green, efficient recovery of REEs www.mining.com
Researchers at China’s Guangzhou Institute of Geochemistry have developed a new technique, electrokinetic mining (EKM), for the green and efficient recovery of rare earth elements from weathering crusts.
The technique exerts a voltage on the top and bottom of the ion-adsorption rare earth deposits (IADs), which generates an electric field to accelerate REE and water migration toward the cathode.
Compared with conventional techniques, EKM achieves ~90% recovery efficiency, ~80% decrease in leaching agent usage, and ~70% reduction in metallic impurities in the obtained REEs.
To get to those figures, the scientists first carried out bench-scale experiments in a homemade prototype with a simulated IAD. Results suggested that the REE recovery efficiency achieved by the EKM technique was 2.6 times higher than that achieved by the commonly used ammonium leaching technique.
Electrokinetic mining allows for green, efficient recovery of REEs
Illustration of IAD mining via EKM and AIP mechanisms. (Graph by Nature Sustainability.)
Then, they carried out scaled-up experiments at the kilogram scale (20 kg) in a larger EKM setup. The results were consistent with the bench-scale trials, that is, the EKM technique was able to achieve higher recovery efficiency and required less treatment time.
Based on the successful bench-scale and scaled-up experiments, the researchers applied the EKM technique to an actual IAD (~14 t-scale) during an on-site field experiment. Results suggested that the REE recovery efficiency was higher than 90% in 264 hours.
The group, thus, decided to further explore the mechanisms underlying the high REE recovery efficiency of the EKM. They noticed that the applied electric field that accelerates REEs and water migration unidirectionally towards the designed place via electromigration and electroosmosis is the key to enhancing REE recovery efficiency.
According to head researcher He Hongping, apart from its sustainability and high recovery efficiency, the EKM technique shows selectivity for REEs from other metallic impurities, namely, Al3+, Ca2+ Na+, and K+.
“We identified an autonomous impurity purification mechanism during the electrokinetic process, which is based on velocity and reactivity diversity between REE and other active metal ions,” He said.
Published Date:2022-11-28
