Technique for extraction separation of quadravalence cerium, thorium and cerium less tervalence rare earth from sulphuric acid rare earth solution
A process method, rare earth sulfuric acid technology, applied in the field of extraction and separation, thorium and cerium-less trivalent rare earth, extraction and separation of cerium, can solve the problems of low extraction capacity, low purity, complex behavior of impurity ions, etc. The process is simple and avoids the effect of acid-base crossover
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Embodiment 1
[0031]The rare earth sulfate solution obtained by roasting bastnaesite with sodium carbonate - washing with fluorine - leaching with dilute sulfuric acid is used as the raw material solution, and the raw material solution contains Ce 4+ / ∑Ce is 93% (weight percent), the rare earth concentration REO is 0.3 mol / liter, H + At a concentration of 0.50 mol / L, ThO 2 The concentration is 0.1 g / L. The extractant is a mixed extractant of 95% P507 and 5% TBP, the concentration is 1.0 mol / liter, the diluent is sulfonated kerosene, and the flow ratio used is organic phase: solid liquid=2:1. After three stages of countercurrent extraction, the raffinate containing cerium (IV), thorium organic phase and trivalent rare earth containing less cerium is obtained.
[0032] The loaded organic phase after extraction is washed with 1 mol / L sulfuric acid through three stages of countercurrent washing, and the trivalent rare earth extracted into the organic phase is washed into the water phase.
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Embodiment 2
[0037] A rare earth sulfuric acid solution is used as the raw material solution, and the raw material solution contains Ce 4+ / ∑Ce is 97%, rare earth concentration REO is 0.6 mol / L, H + At a concentration of 1.2 mol / L, ThO 2 The concentration is 0.50 g / L. The extractant is a mixed extractant of 90% P507 and 10% TRPO, the concentration is 1.5 mol / liter, the diluent is sulfonated kerosene, and the flow ratio used is organic phase: solid liquid=6:1. After 6 stages of countercurrent extraction, a raffinate containing cerium (IV), thorium organic phase and trivalent rare earth is obtained.
[0038] The loaded organic phase after extraction is washed with 7 stages of countercurrent with 4 mol / L sulfuric acid, and the trivalent rare earth extracted into the organic phase is washed into the water phase.
[0039] The loaded organic phase after washing is used to contain 5% hydrogen peroxide and 5 mol / liter of nitric acid, and the organic phase is back-extracted with 7 grades of ceri...
Embodiment 3
[0043] A rare earth sulfuric acid solution is used as the raw material solution, and the raw material solution contains Ce 4+ / ∑Ce is 95%, rare earth concentration REO is 0.8 mol / L, H + At a concentration of 1.5 mol / L, ThO 2 The concentration is 0.30 g / L. The extractant is a mixed extractant of 85% P204 and 15% TRPO, the concentration is 1.25 mol / liter, the diluent is sulfonated kerosene, and the flow ratio used is organic phase: solid liquid=4:1. After five stages of countercurrent extraction, a raffinate containing cerium (IV), thorium organic phase and trivalent rare earth is obtained.
[0044] The loaded organic phase after extraction is washed with 3.0 mol / L sulfuric acid through 5 stages of countercurrent washing, and the trivalent rare earth extracted into the organic phase is washed into the water phase, and the purity of cerium in the organic phase is CeO 2 / REO reached 99.99%. The loaded organic phase after washing was back-extracted with 4% hydrogen peroxide and...
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