A clean process for phosphorus recovery and gallium enrichment from phosphorus flue dust by sodium carbonate roasting

Phosphorus flue dust (PFD) is a solid waste product from phosphorus (P) production that contains P and is enriched with gallium (Ga). The recovery of these valuable components not only protects the environment, but also reduces resource waste. This study aimed to develop a green and efficient method to recover P and enriched Ga from PFD. The effects of different parameters on the P leaching rate and Ga loss rate during Na2CO3 roasting and water leaching were investigated and optimized. The reaction mechanisms during the experiment were characterized, revealing that the P-containing compounds in PFD mainly transformed into water-soluble Na3PO4. Furthermore, the leaching rate of P reached 85.38%, while Ga was mainly concentrated in the residue and its loss rate was only about 1%. Ga content in the residue reached about 0.1%. An attempt was made to recover Na+ and PO43- from the aqueous solution by evaporative crystallization and XRD analysis showed that the main phase of the crystallization product was Na2HPO4. The proposed process is technically simple, only Na2CO3 is added and no hazardous substances are generated, and represents a new method for recovering P and enriching Ga from PFD.

Automated summary

A green and efficient method was developed to recover phosphorus and enriched gallium from phosphorus flue dust. Through Na2CO3 roasting and water leaching, phosphorus and gallium were effectively recovered with recovery rates of 85.38% and about 0.1% respectively. The process is technically simple and does not generate hazardous substances.