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Method for separating and enriching < 6 > Li isotope through extraction-electromigration coupling

A technology of separation, enrichment and electromigration, which is applied to the improvement of process efficiency, instruments, optics, etc., can solve the problems of closed operation, difficulty in multi-stage continuous separation, low current utilization efficiency, etc., and achieve clean, environmentally friendly and simple process The effect of continuous operation

Active Publication Date: 2021-08-17
QINGHAI INST OF SALT LAKES OF CHINESE ACAD OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the organic solution, the difference in the distribution ratio of lithium isotopes in the solvent, cathode, and anode materials is used to achieve separation. In this method, the upper-level enrichment products are mostly metallic lithium or lithium solid compounds, which cannot be directly used as raw materials for the next-level. Multi-stage continuous separation; the organic solvents used are mostly carbonate electrolytes, which are sensitive to air and water and require airtight operation
In addition, most of the existing electrochemical separation technologies require batch injection, and only have obvious isotope separation effects at the front and end of the lithium ion migration flow, and most of the lithium ion migration flow in the middle has no separation effect. resulting in inefficient use of current

Method used

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preparation example Construction

[0052] In some more specific embodiments, the preparation method of the lithium-loaded organic phase further includes: obtaining by directly dissolving lithium salt in the extracted organic phase or driving lithium ions into the extracted organic phase by an electric field.

[0053] Further, the concentration of lithium ions in the anolyte is above 0.05mol / L.

[0054] Further, when the concentration of lithium ions in the anolyte is lower than 0.05 mol / L, a new anolyte can be replaced.

[0055] Furthermore, the anolyte with a lithium ion concentration lower than 0.05 mol / L can be reused through stripping.

[0056] In some more specific embodiments, the method also includes: enriching the obtained step (4) 6 Li's catholyte is applied to step (3) again as catholyte, and steps (3)~(4) are repeated until the obtained enrichment 6 The lithium ion concentration in the catholyte of Li reaches more than 2mol / L.

[0057] Further, the lithium ion concentration obtained in step (4) is...

Embodiment 1

[0072] (1) Mix 1-butyl-3-methylimidazole bis(trifluorosulfonyl)imide salt and anisole at a volume ratio of 1:1, dissolve monoazabenzo-15-crown-5, and form an extract Organic phase, wherein, the concentration of monoazabenzo-15-crown-5 is 0.1mol / L, and the preparation lithium ion concentration is 10mol / L lithium chloride solution;

[0073] (2) Fully mix the extracted organic phase with the lithium chloride solution at a volume ratio of 1:10, and centrifuge to collect the lithium-loaded organic phase after shaking for 1 h;

[0074] (3) The organic phase loaded with lithium is used as the anolyte, the 0.01mol / L ammonium chloride solution is used as the catholyte, the pure copper electrode is used as the anode and the cathode, and the polypropylene film is used as the separator, and the electric field voltage per centimeter distance is 0.5V, Constant voltage DC, collecting catholyte from 0h to 0.5h of electricity, 6 The abundance of Li is 7.65%;

[0075] (4) The catholyte finall...

Embodiment 2

[0077] (1) 1-vinyl-3-methylimidazole bis(trifluorosulfonyl)imide salt and methylene chloride are mixed at a volume ratio of 1:10 to dissolve 4-methyl-10-hydroxybenzoquinoline, An extracted organic phase is formed, wherein the concentration of monoazabenzo-15-crown-5 is 10mol / L, and the preparation of lithium ion concentration is 20mol / L lithium bis(trifluoromethanesulfonyl)imide solution;

[0078] (2) Fully mix the extracted organic phase with the lithium bis(trifluoromethanesulfonyl)imide solution at a volume ratio of 1:20, shake for 0.5 h and centrifuge to collect the lithium-loaded organic phase;

[0079](3) The organic phase loaded with lithium is used as the anolyte, the 0.1mol / L ammonium chloride solution is used as the catholyte, the platinum electrode is used as the anode and cathode, and the polyethylene film is used as the separator. The electric field voltage per centimeter distance is 4.0V, and the period Permanently apply voltage, energize and apply pressure for 1...

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Abstract

The invention discloses a method for separating and enriching < 6 > Li isotope through extraction-electromigration coupling. The method comprises the following steps that ionic liquid, a diluent and a complexing agent are uniformly mixed to form an extraction organic phase; the extraction organic phase is uniformly mixed with a lithium salt solution, and a lithium-loaded organic phase is collected after extraction; an anode, a cathode, the anolyte, catholyte and an isolating membrane jointly form an electromigration system, wherein the anolyte is the obtained lithium-loaded organic phase, and the isolating membrane is arranged between the anolyte and the catholyte; and finally, the electromigration system is electrified to obtain < 6 > Li-enriched catholyte. According to the method, under the action of an electric field, the lithium isotope separation effect continuously exists, the enrichment limitation of the front end and the tail end of an ion migration flow does not exist, the isolation membrane is not subjected to saturation capacity limitation, meanwhile, all solution phases can be recycled, and the process is clean and environment-protecting; and in addition, the process has no special requirements on temperature, humidity, air and the like, and sealing is not needed.

Description

technical field [0001] The invention belongs to the technical field of lithium isotope separation and enrichment, and specifically relates to an extraction-electromigration coupled separation and enrichment 6 Li isotope method. Background technique [0002] High-abundance lithium isotopes play an important role in national economy and national defense security. More than 99.9% abundance 7 LiOH is an acidity regulator for pressurized water reactors, 7 LiBeF is the neutron moderator of the new molten salt reactor. 30%~90% abundance 6 Li is an indispensable raw material for fusion reactors and hydrogen bombs, and is also used in various neutron detectors. With the maturity of molten salt reactor and fusion reactor technology, domestic and foreign markets will demand 7 Li and 6 Li's demand will increase day by day. and 7 Li and 6 The natural abundances of Li are 92.5% and 7.5%, respectively, which cannot be directly applied to the above fields, and must be separated by...

Claims

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Application Information

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IPC IPC(8): C22B3/26C22B26/12C25C1/22
CPCC22B26/12C25C1/22Y02P10/20B01D59/42B01D59/24B01D59/26
Inventor 孙进贺王明勇黄超驰张鹏瑞贾永忠景燕邵斐张茜
Owner QINGHAI INST OF SALT LAKES OF CHINESE ACAD OF SCI
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