A Critical Review of the Enhanced Recovery of Rare Earth Elements from Phosphogypsum

The increasing demand for rare earth elements (REEs), especially from new and innovative technology, has strained their supply, which makes the exploration of new REE sources necessary, for example, the recovery of REEs from phsophogypsum (PG). PG is a byproduct during the wet production of phosphoric acid, which is an attractive secondary resource for REEs due to a large amount of REEs locked in them. In most cases, REEs contained in PG are mainly encapsulated in the gypsum crystal, leading to a low leaching efficiency. Therefore, it is particularly important to use various methods to enhance the leaching of REEs from PG. In this review, we summarized and classified various enhanced leaching methods for the recovery of REEs from PG, and the advantages and disadvantages of different methods were compared. A joint method of recrystallization and RIL may be a promising enhanced leaching approach for the recovery of REEs from PG. Recrystallization could achieve both the complete REE release and simultaneous preparation of industrial materials with high value added, such as high-strength & alpha;-hemihydrate gypsum by phase transformation of PG, and the RIL technology could adsorb the releasing REEs and realize their efficient extraction. Such a combination appears to show significant advantages because of high REE recovery, as well as high value-added product preparation at low cost.

Automated summary

The increasing demand for rare earth elements (REEs) has led to a strain on their supply, making it necessary to explore new sources. The recovery of REEs from phsophogypsum (PG), a byproduct of phosphoric acid production, is attractive due to the large amount of REEs trapped in it. Various methods have been summarized, classified, and compared to enhance the leaching of REEs from PG, with the joint method of recrystallization and RIL showing promise for high REE recovery and value-added product preparation at low cost.