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Method for preparing lithium carbonate by using salt lake brine with high magnesium-to-lithium ratio

A technology of salt lake brine and high magnesium-to-lithium ratio, applied in lithium carbonate;/acid carbonate and other directions, can solve the problems of high energy consumption, large equipment corrosion, problems in the way out of by-products, etc., to achieve low energy consumption, Low-cost, easy-to-control effects

Inactive Publication Date: 2010-04-28
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

These two methods both involve the evaporation and concentration of dilute lithium solution, which consumes a lot of energy. In addition, the equipment corrosion of the first method is also relatively large. At the same time, a large amount of magnesium oxide and hydrochloric acid are produced by-products, and there are problems in the way out of the by-products.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] (1) Refining of magnesium chloride saturated brine

[0025] Adjust the pH of the saturated magnesium chloride lithium-rich brine from the salt field brine storage pool with hydrochloric acid, so that the pH value of the brine is between 2 and 5, and then add the corresponding dose of sulfate and corresponding dose of barium salt according to the calcium content in the brine, Stir at room temperature for 30-90 minutes, complete slurry filtration and separation after stirring, remove boron, calcium, and sulfate radicals in the brine, and obtain low-boron, low-calcium, and low-sulfur refined brine as a raw material solution for lithium extraction, and enter the next process. The phase is used in the boron extraction process for boron extraction.

[0026] (2) pH adjustment of raw brine after refining

[0027] Put the above-mentioned refined brine into the mixer, add 15% sodium hydroxide solution, and stir at room temperature for 3-9 minutes; then adjust the pH value with h...

Embodiment 2

[0037] (1) Refining of magnesium chloride saturated brine

[0038] Adjust the pH of the saturated magnesium chloride lithium-rich brine from the salt field brine storage pool with hydrochloric acid, so that the pH value of the brine is between 2 and 5, and then add the corresponding dose of sulfate and corresponding dose of barium salt according to the calcium content in the brine, Stir at room temperature for 30-90 minutes, complete slurry filtration and separation after stirring, remove boron, calcium, and sulfate radicals in the brine, and obtain low-boron, low-calcium, and low-sulfur refined brine as a raw material solution for lithium extraction, and enter the next process. The phase is used in the boron extraction process for boron extraction.

[0039] (2) pH adjustment of raw brine after refining

[0040] Put the above-mentioned refined brine into the mixer, add 20% sodium hydroxide solution, and stir at room temperature for 3-9 minutes; then adjust the pH value with h...

Embodiment 3

[0050] (1) Refining of magnesium chloride saturated brine

[0051] Adjust the pH of the saturated magnesium chloride lithium-rich brine from the salt field brine storage pool with hydrochloric acid, so that the pH value of the brine is between 2 and 5, and then add the corresponding dose of sulfate and corresponding dose of barium salt according to the calcium content in the brine, Stir at room temperature for 30-90 minutes, complete slurry filtration and separation after stirring, remove boron, calcium, and sulfate radicals in the brine, and obtain low-boron, low-calcium, and low-sulfur refined brine as a raw material solution for lithium extraction, and enter the next process. The phase is used in the boron extraction process for boron extraction.

[0052] (2) pH adjustment of raw brine after refining

[0053] Put the above-mentioned refined brine into the mixer, add 15% sodium hydroxide solution, and stir at room temperature for 3-9 minutes; then adjust the pH value with h...

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Abstract

The invention provides a method for preparing industrial lithium carbonate by using salt lake brine with a high magnesium-to-lithium ratio. In the method, a TBP-CON-KS+FeCl3 is used as an extraction system to extract and back-extract impurity-free salt lake brine with a high magnesium-to-lithium ratio, the residual liquid obtained after back-extraction is converted by alkaline liquor for precipitation, the precipitate is washed to form an industrial lithium carbonate product and the lithium carbonate content is more than or equal to 99.0 percent and is in accordance with the requirements of GB / T 11 075-2003 standards. The method has the advantages that: liquid-liquid extraction with an organic solvent is adopted to realize the separation of lithium from magnesium, the lithium carbonate is precipitated by inorganic slats, the lithium carbonate is extracted from the salt lake brine with a high magnesium-to-lithium ratio, the process is simple, the control is easy, the operational reliability is high and the application range is wide; a process of calcination and diluted lithium solution evaporation and concentration is saved, the energy consumption is only 30 to 50 percent of that of the conventional process for producing lithium carbonate by using lithium-containing brine; initial raw material consumption comparison show that the production cost of the method is only about 8 percent of that of the prior art; and the raw material brine can return to a storage pool after the extraction of the lithium carbonate, so no by production disposal problem is involved, environmental pollution is relatively low and lithium yield in the whole process is more than or equal to 70 percent.

Description

technical field [0001] The invention belongs to the technical field of inorganic chemical industry and relates to a method for preparing lithium carbonate, in particular to a method for preparing industrial-grade lithium carbonate by using lithium-containing salt lake brine, which is mainly suitable for preparing industrial-grade lithium carbonate from salt lake brine with a high magnesium-lithium ratio. Background technique [0002] Lithium is one of the important strategic resources, known as industrial flavor, and has important strategic significance in national defense industry and national high-tech development. Lithium mainly exists in nature in two forms of solid minerals and liquid minerals, among which lithium reserves in salt lake brine account for 66% of the world's lithium reserves. In recent years, with the rapid development of the lithium salt industry, salt lake brine lithium resources have gradually replaced lithium ore and become the main raw material for li...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01D15/08
Inventor 李海民张全有陈育刚孟瑞英杨海云
Owner QINGHAI INST OF SALT LAKES OF CHINESE ACAD OF SCI
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