Optimized Ore Processing using Molten Salts for Leaching and Thermal Energy Storage

University of Arizona researchers have developed and optimized an electrochemical metal extraction process utilizing molten chloride salt. The salt serves as a heat transfer fluid, which can power the process itself or provide power to outside processi…

University of Arizona researchers have developed and optimized an electrochemical metal extraction process utilizing molten chloride salt. The salt serves as a heat transfer fluid, which can power the process itself or provide power to outside processing units or communities. The material, or slag, leftover from the process is non-toxic and may easily serve as a viable construction material.

Background:
The Copper, Zinc, and Lead refining industry are defined by its processes including smelting, leaching, electrolytic refining, and more. Typically companies within this industry practice smelting metal-bearing ores and process nonferrous metals via electrolytic processes. As an alternative to common electrolytic practices, researchers at the University of Arizona have developed this inexpensive and environmentally friendly process, which has shown high process yields of over 99% in lab-scale experiments.  

Applications:

  • Green mining
  • Copper, Zinc, and other transition metal refining
  • Precious metal refining
  • Mining power source
  • Non-toxic building material from slag waste byproduct
  • Recovery of metals from electronic waste

Advantages:

  • Non-toxic
  • Alternative to traditional techniques involving cyanide and sulfuric acid leaching
  • Molten salt is inexpensive and recyclable
  • Cost is less than, or equal to, aluminum refining

Website:

https://arizona.technologypublisher.com/tech/Optimized_Ore_Processing_using_Molten_Salts_for_Leaching_and_Thermal_Energy_Storage

Contact Information:

TTO Home Page: https://arizona.technologypublisher.com

Name: Brett Mortenson

Title: Licensing Manager, College of Engineering

Email: BrettM@tla.arizona.edu