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- Title
Synergistic leaching process for ion-exchange ammonium from weathered crust elution deposited rare earth tailings with potassium magnesium compound eluent.
- Authors
Li, Xiaoju; Yu, Junxia; Li, Xiaodi; Song, Guoping; Ouyang, Ze; Wang, Rong; Zhang, Zhenyue; Xiao, Chunqiao; Chi, Ruan
- Abstract
The ion-exchangeable ammonium (IE-A) that accounts for 60–90% of the total residual ammonium in rare earth tailings has great potential to pollute the surrounding environment, and much research has been done to seek an effective elution method. However, the current study mainly focused on the single salt solution, which made it hard to reach the desired elution efficiency. In this study, the efficient binary compound eluent was prepared, and the response surface experiments and dynamic elution were performed to optimize the elution condition and evaluate the practical application prospect. Batch experimental results showed that the best IE-A elution efficiency could be achieved at the K:Mg molar ratio of 8:2, the liquid–solid ratio of 26:1, and the concentration of 0.1 mol/L at the natural solution pH. Dynamic experimental results indicated that a higher concentration, flow rate, and elution temperature could all accelerate the elution process, and the highest elution efficiency could reach 99%. The fitting results by shrinking core models show that the apparent activation energy of IE-A was 4.24 kJ/mol in the temperature range of 288–328 K, and the reaction order was 0.16. XPS and FTIR revealed that IE-A was effectively eluted by a potassium and magnesium compound leaching agent via an ion-exchange reaction. Overall, the developed compound solution with potassium and magnesium is a candidate for an elution agent that could be used to remove residual ammonium in a closed field of rare earth ores.
- Subjects
MAGNESIUM compounds; POTASSIUM compounds; METAL tailings; ION exchange (Chemistry); SOLUTION (Chemistry); LEACHING; RARE earth metals; AMMONIUM
- Publication
Environmental Science & Pollution Research, 2023, Vol 30, Issue 58, p121513
- ISSN
0944-1344
- Publication type
Article
- DOI
10.1007/s11356-023-30879-w