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An Environmentally Friendly Sulfuric Acid Decomposition Strategy for Mixed Rare Earth Concentrate

Shaochun Hou, Bo Zhang, Wenjun Li, Tuo Zhao, Zongyang Da, Chenghong Liu

2024Minerals12 citationsDOIOpen Access PDF

Abstract

A novel environmentally friendly one-step decomposition strategy for mixed rare earth concentrate of Bayan Obo in sulfuric acid solution was proposed in this work. In this process, more than 84% of bastnasite and monazite were decomposed in the leaching step at a temperature lower than the boiling point of sulfuric acid solution. So, the dilapidation of sulfuric acid in this current proposed process will be reduced to a large extent. The stability region of rare earth ion in the RE(La, Ce, Nd)-F-P-SO4-H2O system at 170 °C has been proven through Eh-pH diagrams. The factors influencing decomposition of rare earth concentrate in this process were also investigated and the optimal leaching conditions were determined to be a leaching temperature of 170 °C with an ore/acid ratio of 1:5 (g/mL), a sulfuric acid concentrate of 75% and a leaching time of 80 min. The mineralogical changes occurring during the H2SO4 leaching process were investigated by X-ray diffraction and SEM-EDS. The analysis results showed that bastnasite and most of monazite had been decomposed, leaving only a small amount of monazite in the leaching residue.

Topics & Concepts

Sulfuric acidMonaziteLeaching (pedology)Environmentally friendlyChemistryInorganic chemistryRare earthMineralogyGeologyGeochemistrySoil scienceZirconBiologyEcologySoil waterExtraction and Separation ProcessesGeochemistry and Elemental AnalysisRadioactive element chemistry and processing
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