Reaction mechanism of fluoride conversion into BF₄^- during sulphuric acid leaching of roasted bastnaesite

Hongcheng Zhang¹，Dairui Xie¹，Heng Zhang¹，Meng Jiang¹，Hao Huang¹，Yu Wan¹，Yang Liao^1,2，Shilin Zhao^1,2

1. College of Chemistry and Material Science,Sichuan Normal University2. Key Laboratory of Land Resources Evaluation and Monitoring in Southwest,Ministry of Education of China

摘 要：The bastnaesite used in hydrometallurgy usually contains 7%-11% fluorine,and the conversion of fluorine into high-value products is the key to achieving green production of rare earths and improving the comprehensive utilization of bastnaesite.In order to recover fluorine from bastnaesite in the form of KBF4,the mechanism of F^-conversion to BF₄^-in sulphuric acid leaching solution of roasted bastnaesite was studied by using E_h-pH diagram and simulation experiment.It shows that the formation of BF₄^-is affected by pH in the absence of rare earths.BF₄^-is hydrolyzed to BF₃ OH^-and F^-when the pH is greater than 3.9,and part of F^-exists as HF₂^-when pH is lower than 2.In the presence of La³⁺,the formation of BF₄^-is mainly affected by LaF3 when pH is greater than 0,and in the case that the pH is lower than 2,it is mainly affected by HF₂^-.When Ce4+is present in solution,CeF₂²⁺ can exist stably in sulphuric acid solution.Bringing down the pH can reduce the stability of CeF₂²⁺ and increase the BF₄^-conversion rate.Based on these results,KBF₄ was prepared in the alkaline solution of bastnaesite,and the conversion of BF₄^-is 84.31%.This provides a theoretical basis for the recovery of fluorine from bastnaesite in the form of KBF₄.

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