Abstract:The amount of leaching agent for ionic rare earth ore is an important factor affecting the leaching rate, its reference basis determines the difference of estimated results. In the leaching process, the consumption of ammonium ions is related to the mass of rare earth, the volume of ore and the total amount of cation exchange, so these three factors can be used as a reference for the dosage of leaching agent. At present, the selection of reference basis in the industry relies more on traditional experience and lacks of evaluation of reference. In view of this problem, this paper adopts mathematical statistical method to the original leaching data, and studies the relationship between different reference basis and leaching rate: taking a ore block in Fujian Province, China as the experimental object, the experiment of injection with different dosages of leaching agent was carried out. Using the calculation model of leaching agent dosage, such as chemical equilibrium model, the modified DED model and experience model, the correlation between different reference basis and leaching rate were evaluated. The results show that, from the empirical model, (0.99)＞ (0.96)＞ (0.94), from the modified DED model, (0.919)＞ (0.90)＞ (0.86). Thus, it can be assumed that the correlation between the total cation exchange and leaching rate is the best. On this basis, the error causes of the amount of leaching agent produced by the three reference bases were analyzed. It is found that the relative error produced by the total cation exchange as reference basis is the smallest in the high impurity environment. Therefore, based on the correlation evaluation results and theoretical analysis, it is suggested to choose the total cation exchange as the reference basis for leaching agent dosage of high impurity ionic rare earth ore.

Key words: ion-absorbed rare earth; mathematical statistics; calculation model of leaching agent dosage; rare earth content; ore volume; cation exchange capacity