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Method for recovering rare earth fused salt from rare earth waste graphite

A waste graphite and rare earth technology, applied in chemical instruments and methods, wet separation, solid separation, etc., can solve the problems that rare earth molten salts and waste graphite cannot be completely separated, rare earth molten salts have low purity and cannot be directly used, and achieve High labor productivity, easy operation, and improved purity

Active Publication Date: 2022-03-25
ZHENGZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The existing problems of the above-mentioned existing gravity separation method for processing waste graphite are: the waste graphite material needs multiple grinding and sieving, multiple gravity separations are required, the labor productivity is low, and only relying on gravity separation cannot completely separate rare earth molten salt and Waste graphite, the purity of rare earth molten salt obtained is low, no more than 93%, cannot be used directly, and needs secondary treatment

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] The present invention reclaims the method for rare earth molten salt from rare earth waste graphite, and the detailed operation steps of described recovery method are as follows:

[0028] a. Firstly, take 1000g of the rare earth electrolytic waste graphite anode to be crushed and pulverized sequentially, and after pulverized, graphite powder with a particle size of ≤200 meshes is obtained;

[0029] b. Add 50 g of flotation aid biocoke to the graphite powder obtained in step a and mix evenly to obtain mixed powder, add the mixed powder to the flotation cell, then add 8000g of water and stir evenly to obtain the flotation pulp; Slowly add 81g of flotation agent under the condition of stirring (the flotation agent is mixed by aviation kerosene 77.76g and edible oil 3.24g), stir while adding, continue to carry out flotation treatment for 4h, obtain flotation overflow after treatment 970g and flotation underflow 80g (after analysis, the mass percentage composition of graphit...

Embodiment 2

[0033] The present invention reclaims the method for rare earth molten salt from rare earth waste graphite, and the detailed operation steps of described recovery method are as follows:

[0034] a. Firstly, take 1000g of rare earth electrolytic waste graphite tank and carry out successive crushing and grinding, and obtain graphite powder with particle size ≤ 200 mesh after grinding;

[0035] b. Add 100g of flotation aid bio-coke to the graphite powder obtained in step a and mix evenly to obtain mixed powder, add the mixed powder to the flotation cell, then add 10000g of water and stir evenly to obtain the flotation pulp; Slowly add 110g of flotation agent under the condition of stirring (the flotation agent is formed by mixing 104.5g of aviation kerosene and 5.5g of edible oil), stir while adding, continue to carry out flotation treatment for 6h, and obtain flotation overflow after treatment 1005g and flotation underflow 95g (after analysis, the mass percentage composition of ...

Embodiment 3

[0039] The present invention reclaims the method for rare earth molten salt from rare earth waste graphite, and the detailed operation steps of described recovery method are as follows:

[0040] a. Firstly, take 1000g of rare earth electrolytic waste graphite filler and carry out crushing and grinding in turn, and obtain graphite powder with a particle size of ≤200 mesh after grinding;

[0041]b. Add 35g of flotation aid bio-coke to the graphite powder obtained in step a and mix uniformly to obtain mixed powder, add mixed powder in the flotation cell, then add 7000g water and stir evenly to obtain flotation pulp; Slowly add 32g of flotation agent under the condition of stirring (the flotation agent is formed by mixing 30.92g of aviation kerosene and 1.08g of edible oil), stir while adding, continue to carry out flotation treatment for 4.5h, and obtain flotation overflow after treatment. Flow 975g and flotation bottom flow 60g (after analysis, the mass percentage composition of...

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Abstract

The invention discloses a method for recovering rare earth fused salt from rare earth waste graphite. The method comprises the following steps: crushing and grinding waste graphite in sequence to obtain graphite powder with the particle size of less than or equal to 200 meshes; the method comprises the following steps: adding a flotation aid into graphite powder, uniformly mixing, adding into a flotation tank after uniformly mixing, adding water, uniformly stirring, adding a flotation reagent while stirring, and carrying out flotation treatment to obtain flotation overflow and flotation underflow; obtained flotation overflow is dried, and graphite powder is obtained and sold as a product; and the obtained flotation underflow is roasted, pure rare earth fused salt is obtained after roasting, and the obtained rare earth fused salt is directly used as a raw material for rare earth electrolysis to be reused. By adopting the process method which is simple and convenient to operate, the rare earth fused salt and the waste graphite can be effectively separated, and value-added utilization of the rare earth fused salt and the waste graphite is realized; the labor productivity is high, the treatment effect is high, and the obtained rare earth fused salt is high in purity and can be directly utilized.

Description

1. Technical field: [0001] The invention relates to the application field of rare earth electrolytic waste graphite materials, in particular to a method for recovering rare earth molten salt from rare earth waste graphite. 2. Background technology: [0002] Graphite has excellent electrical and thermal conductivity, high temperature resistance, and acid and alkali corrosion resistance. Graphite is a commonly used material for the production of rare earth metals by molten salt electrolysis. It is generally used as an anode and electrolytic cell, and is an important material in the electrolysis process of rare earth metals. However, graphite materials have low density, high porosity, poor oxidation resistance and corrosion resistance. During use, molten salt is easy to penetrate into graphite anode, graphite groove and graphite filling layer. Under normal production conditions, rare earth electrolysis regularly produces waste graphite anodes, waste graphite tanks and waste gr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B03B7/00B03B1/00C25C3/34C25C7/06
CPCB03B7/00B03B1/00C25C3/34C25C7/06
Inventor 陈喜平李娜申振芳张凯赵伟东
Owner ZHENGZHOU UNIV
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