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Process for producing granular rare earth chloride crystals by using rare earth chloride solution

A technology of rare earth chloride and production process, applied in the field of rare earth chloride solution, can solve the problems of high labor intensity, inability to recycle, long process flow, etc., and achieve the effects of short production cycle, uniform particles and stable quality

Inactive Publication Date: 2013-06-26
BAOTOU HUAMEI RE PRODS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Its rare earth chloride crystals contain 52%-58% of rare earths, and the product quality is unstable. The hydrogen chloride gas and water vapor gas generated in the process cannot be recovered, causing serious pollution to the environment; this process is long, intermittently operated, and labor-intensive. Unstable product quality is not good for improving current efficiency

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0010] Praseodymium chloride rare earth solution is used for the crystallization method of granular praseodymium chloride rare earth, and praseodymium chloride (PrCl 3 ) The rare earth solution is added to the glass fiber reinforced plastic tank, and then hydrochloric acid is added to adjust the pH value to 1.5. After being pumped into the three-effect evaporator for evaporation, the mass concentration is increased to 700-720 g / L, and the water vapor and the hydrogen chloride gas released After recovery by the gas condensation system, the evaporated solution enters the cooling system by gravity and cools to room temperature to crystallize, and then pumps it into the centrifuge for solid-liquid separation. The mother liquor flows into the recovery tank by gravity and reuses, and the output solid is granular Rare earth chloride crystals, the total amount of rare earth is 64.58%.

Embodiment 2

[0012] Method for mixing rare earth chloride solution for granular rare earth chloride crystallization, will contain LaCl 3 , CeCl 3 , PrCl 3 , NdCl 3 , SmCl 3 , EuCl 3 , GdCl 3 , TdCl 3 , DyCl 3 、HoCl 3 , ErCl 3 , TmCl 3 , YbCl 3 、LuCl 3 , Ycl 3 , ScCl 3 After adding the rare earth chloride solution of the element into the glass fiber reinforced plastic tank, add hydrochloric acid to adjust the pH value to 2.0, pump it into the three-effect evaporator for evaporation, and increase the mass concentration to 720~750 g / L, and the water vapor and the escaping The hydrogen chloride gas is recovered by the condensing system and reused. The evaporated solution enters the cooling system by gravity and is cooled to room temperature to crystallize. Then it is pumped into the centrifuge for solid-liquid separation. The solid is granular rare earth chloride crystals, and its total rare earth content is 65.34%.

Embodiment 3

[0014] Mixed lanthanum chloride persimmon praseodymium rare earth solution for granular rare earth chloride crystallization method, the rare earth chloride (LaCl 3 , CeCl, PrCl 3 ) solution into the glass fiber reinforced plastic tank, add hydrochloric acid to adjust the pH value to 2.5, pump it into a three-effect evaporator for evaporation, and increase its mass concentration to 700-730 g / L, water vapor and hydrogen chloride gas released, The gas is recovered by the condensing system and reused. The evaporated solution enters the cooling system by gravity and is cooled to room temperature to crystallize. Then it is pumped into the centrifuge for solid-liquid separation. The mother liquor flows into the recovery tank by gravity and reused. The output solid is granular Rare earth chloride crystals, the total amount of rare earth is 62.46%.

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Abstract

The invention relates to a process for producing granular rare earth chloride crystals by using a rare earth chloride solution, which belongs to the field of rare earth hydrometallurgy. According to the invention, a hydrochloric acid is added into the rare earth chloride solution, and after the pH value of the obtained mixture is 1-3, the obtained mixture is evaporated, so that the mass concentration of the obtained mixture is increased to 700-750g / L; water vapor and escaped hydrogen chloride gas are condensed and then recycled; the solution subjected to evaporation enters a cooling system through self-flowing, so that the solution is cooled to room temperature and crystallized; then the crystallized solution is fed into a centrifugal machine to carry out solid-liquid separation; and mother liquor is recycled, and solids are granular rare earth chloride crystals. According to the invention, a hydrochloric acid is added into the rare earth chloride solution to adjust the pH value, so that the impurity content of products is low; through concentration control, granules are uniform and stable in quality; the process method is simple in operation, short in production cycle and serialized; the rare earth content of produced granular rare earth chloride crystals can reach 62-67%; and escaped hydrogen chloride steam and water vapor, after recovered by a condensing system, is reused, therefore, an effect of industrialized production is easily achieved.

Description

technical field [0001] The invention relates to a rare earth chloride solution used for the production of granular rare earth chloride crystals, and belongs to the field of rare earth hydrometallurgy. technical background [0002] According to the literature, the hydrated rare earth chloride crystallizes under vacuum conditions (the material is static) and removes all the crystallization water at a temperature of 200 °C. When the heating temperature is 200-280 ℃, all the water of crystallization will be removed. In the mid-1970s, rare earth chloride solution was directly sprayed and dehydrated in China to prepare powdery anhydrous rare earth chloride. [0003] At present, the preparation of anhydrous rare earth chloride in China generally uses the rare earth chloride solution after pretreatment of Baotou rare earth concentrate and monazite concentrate, and carries out four processes including decompression concentration cooling crystallization, manual crushing and vacuum de...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01F17/00
Inventor 陈建利柳凌云王永利谢军代永久牟保畏刘磊姚龙君彭婧李赫萨如拉徐国华赵军亢璟轩
Owner BAOTOU HUAMEI RE PRODS
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