부산대학교 도서관

Aluminum is the main impurity of the weathered crust elution-deposited rare earth ore (WCED-REO). Efficient leaching of rare earths and low leaching of aluminum are of great importance for the leaching of the WCED-REO. The effects of pH, MgSO4concentration and Al3+concentration of the leaching agent solution on the column leaching behaviors of WCED-REO using magnesium sulfate were investigated. Experimental data show that controlling the MgSO4concentration to 0.15 mol/L, pH of the leaching agent solution to 2, the leaching amount of aluminum from the rare earth ore gradually decreases with the increase of Al3+concentration in the leaching agent solution, indicating that Al3+in the leaching agent solution may act as leaching agent to participate in the ion exchange of RE3+, but the leaching amounts of rare earths change insignificantly as the Al3+concentration is increased. Increasing the MgSO4concentration is beneficial to the leaching of aluminum, and when the Al3+concentration is 0.04 mol/L (Al accumulation), the amount of Al3+leached from the rare earth ore increased gradually with increasing the MgSO4concentration. The pH of the leaching agent solution has a significant influence on the leaching of aluminum in the rare earth ore, and the leaching amount of aluminum from the rare earth ore increases gradually with decreasing the pH. When the Al3+concentration is 0.04 mol/L (Al accumulation) and the pH of the leaching agent solution is above 2.0, the aluminum in the leaching agent solution can be back-adsorbed onto the rare earth ore, and the amount of the back-adsorbed Al3+increases with increasing the pH of the leaching agent solution. The injection rate of the leaching agent solution has slight effect on the leaching behavior of rare earths and aluminum. In summary, leaching of Al3+and consumption of MgSO4can be reduced by regulating the accumulation of aluminum, MgSO4concentration and pH.