Ammonium sulfate leaching of NaOH-treated monazite

Rare earth elements (REEs) can be extracted from monazite under aggressive decomposition and leaching conditions. Much of the waste rocks are removed prior to the extraction process to minimize the costs and waste generation, which is difficult with coal byproducts. The possibility of extracting REEs from low-grade monazite concentrates under relatively mild conditions has been explored to simulate the extraction of REEs from coal byproducts. It has been found that monazite can be decomposed in 10 to 50 % NaOH solutions at 80 degrees C, with the resulting hydrous oxide being subjected to the ammonium sulfate leaching at pH 4. The Sigma-potential measurements con-ducted in the presence of the lixiviant suggest that the NH4+ ions displace the hydrated Ln(3)(+) ions from the surface of Ln(OH)(3)(s) by an ion-exchange mechanism, which may be driven by the large differences in the hydration enthalpies between the charged species involved. This approach may be advantageous over acid leaching, including the regeneration of spent lixiviant, lower chemical consumption, and leaching at higher pH.

Automated summary

Rare earth elements can be extracted from low-grade monazite concentrates under relatively mild conditions, which is advantageous over acid leaching.