Rare earth metals are recovered through hydrometallurgical processes. The most difficult stage is the separation from the REE ion mixture allowing pure metals extraction. The used methods are based on subtle differences in chemical properties between individual REE ions. The present work determines efficiency of the separation of aqueous solutions of rare earth metals basing on the differences in physical properties (magnetic moment). The distribution of ions in the solution takes place in a steady magnetic field generated by a set of neodymium magnets. The following parameters affecting the method efficiency are analyzed: time, solution pH, concentration of individual REE ions, complexing additives, as well as the experiment duration and location of stationary magnets in relation to the liquid.
Kolczyk, K., Kutyla, D., Wojnicki, M., Cristofolini, A., Kowalik, R., Zabinski, P. (2016). SEparation of rare earth metals ions in a static magnetic field. MAGNETOHYDRODYNAMICS, 52(4), 541-547.
SEparation of rare earth metals ions in a static magnetic field
CRISTOFOLINI, ANDREA;
2016
Abstract
Rare earth metals are recovered through hydrometallurgical processes. The most difficult stage is the separation from the REE ion mixture allowing pure metals extraction. The used methods are based on subtle differences in chemical properties between individual REE ions. The present work determines efficiency of the separation of aqueous solutions of rare earth metals basing on the differences in physical properties (magnetic moment). The distribution of ions in the solution takes place in a steady magnetic field generated by a set of neodymium magnets. The following parameters affecting the method efficiency are analyzed: time, solution pH, concentration of individual REE ions, complexing additives, as well as the experiment duration and location of stationary magnets in relation to the liquid.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.