Method for preparing pure sulfuric acid rare earth solution

A rare earth sulfate and solution technology, applied in the direction of improving process efficiency, can solve the problems of high rare earth entrainment and adsorption loss, low solid-liquid reaction efficiency, increased acid and alkali consumption, etc.

Active Publication Date: 2021-09-10
GRIREM ADVANCED MATERIALS CO LTD +1
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Problems solved by technology

Among them, the sulfuric acid rare earth leaching solution obtained in the water immersion process is 30-40g/L in terms of rare earth oxides. When solid magnesium oxide is used for one-time neutralization and removal of impurities, because solid magnesium oxide contains a large amount of impurities and the solid

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  • Method for preparing pure sulfuric acid rare earth solution
  • Method for preparing pure sulfuric acid rare earth solution
  • Method for preparing pure sulfuric acid rare earth solution

Examples

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Embodiment 2

[0074] In Examples 25 to 27, the primary leaching solution, primary leaching slag, crystallization mother liquor and rare earth sulfate crystals obtained in Example 2 were used, and the pH at the end point of the secondary leaching for impurity removal was different. In Examples 28 to 30, the primary leaching solution, primary leaching residue, crystallization mother liquor and rare earth sulfate crystals obtained in Example 2 were used, and the depth of impurity removal pH was different.

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[0081] In summary, the present invention provides a method for preparing pure sulfuric acid rare earth solution. The present invention utilizes the kinetic characteristics of rare earth dissolution and the characteristics that the solubility of rare earth sulfate decreases with increasing temperature in the sulfuric acid roasted ore leaching process of rare earth, and adopts low liquid-solid ratio Rapid leaching followed...

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Abstract

The invention relates to a method for preparing a pure sulfuric acid rare earth solution from sulfating roasting rare earth ore. Rare earth is recovered step by step through two phases, so that the rare earth recovery rate is improved. According to the dynamic characteristics of rare earth dissolution in the rare earth sulfuric acid roasted ore leaching process and the law of the influence of temperature on the solubility of sulfuric acid rare earth, and through low-liquid-solid-ratio rapid leaching and then heating recrystallization, 50% or above of rare earth is separated out in a high-purity sulfuric acid rare earth recrystallization phase, and preliminary separation of the rare earth and impurities is achieved; and the remaining rare earth can be separated from the impurities again by means of neutralization and impurity removal, specifically, (1) one-step impurity removal of magnesium oxide in a traditional process can be replaced by a magnesium bicarbonate solution, so that the total consumption of solid magnesium oxide is reduced by 90%, magnesium recycling is realized, and the impurities introduced by magnesium oxide and the amount of slag generated by incomplete reaction are also reduced; and (2) magnesium oxide two-step impurity removal is adopted, and the total consumption of solid magnesium oxide is reduced by about 10% compared with a traditional process. According to the preparation method, the total recovery rate of the rare earth is increased by 1-3%.

Description

technical field [0001] The invention relates to the field of extraction and separation of rare earth hydrometallurgy, in particular to a method for preparing pure sulfuric acid rare earth solution from sulfated roasted rare earth ore. Background technique [0002] Rare earth elements refer to 17 metal elements including 15 lanthanides and yttrium and scandium. Because rare earth resources play an important role in the development of clean energy economy and high-tech industries, they are the country's strategic resources. Typical rare earth mineral resources in my country include mixed rare earth mines in Baotou, Inner Mongolia (hereinafter referred to as "Baotou mines"), bastnaesite in Sichuan and Shandong, and ion-adsorption rare earth mines in seven southern provinces. The most important light rare earth resources. [0003] At present, about 90% of Baotou mines in my country's industry are smelted and separated by the "third-generation acid method": high-temperature inte...

Claims

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Application Information

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IPC IPC(8): C22B59/00C22B1/06C22B3/04C22B3/44C22B3/22
CPCC22B59/00C22B1/06C22B3/04C22B3/44C22B3/22Y02P10/20
Inventor 冯宗玉陈世梁黄小卫徐旸王猛赵岩岩崔大立夏超魏煜青
Owner GRIREM ADVANCED MATERIALS CO LTD
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