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Method for extracting ultrahigh-purity lithium carbonate from salt lake brine with high magnesium-lithium ratio

A high magnesium-lithium ratio, salt lake brine technology, applied in the direction of lithium carbonate;/acid carbonate, etc., can solve the problems of high cost, difficult to meet, high sodium content, etc.

Inactive Publication Date: 2012-05-02
JIANGSU HAILONG LITHIUM IND TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006]However, there are still deficiencies in the current preparation method, the most notable of which is that it is difficult to further improve the product purity, and it is difficult to meet some ultra-high purity applications such as medicine, catalyst and atomic energy industry and other special field requirements
Moreover, as a key step to obtain lithium concentrate, the evaporation and concentration process is not effective when directly applied to high-magnesium-lithium ratio salt lake brine, especially chloride-type brine; sodium carbonate as a precipitant will bring a large amount of sodium ions, It takes a lot of water to remove, the sodium content in the product is relatively high, and a large amount of sodium chloride waste solution is produced at the same time, which cannot achieve sustainable production

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] High magnesium lithium ratio chloride type salt lake brine, the main components are (g / l):

[0051] LiCl-2.2, MgCl 2 – 486, NaCl – 2.1, KCl – 2.4, CaCl 2 – 1.3, SO 4 2- – 1.1。

[0052] Put 11 liters into the adsorption-desorption column, the main component is LiCl 2Al(OH) 3 ·nH 2 The granular adsorbent of O acts with 45 liters of brine in the filtered state. After the adsorbent adsorbs lithium chloride to a saturated state, use a lithium chloride aqueous solution with a concentration of 5g / l to flush out the salt solution from the adsorption-desorption column, and then use distilled water to desorb lithium chloride to obtain lithium chloride once concentrated Liquid 14.8 liters, composition (g / l): LiCl – 6.2, MgCl 2 – 6.8, NaCl 2 4 2-

[0053] Heat the primary concentrate to 80°C, add a chemical dose of lithium carbonate and mix for 1 hour to remove most of the magnesium ions and calcium ions in the concentrate, a...

Embodiment 2

[0063] High magnesium lithium ratio chloride type salt lake brine, the main components are (g / l):

[0064] LiCl – 4.3, MgCl 2 – 355, NaCl – 32.1, KCl – 22.4, CaCl 2 – 2.1, SO 4 2- – 1.8。

[0065] Lithium carbonate was extracted according to the method described in Example 1, wherein the lithium carbonate precipitation rate of reaction (1) was 87.4%, and the final product consisted of (% by weight): lithium carbonate> 99.99, Na 4 2- and NH 4 + Not found.

[0066]

Embodiment 3

[0068] High magnesium lithium ratio chloride type salt lake brine, the main components are (g / l):

[0069] LiCl-3.2, MgCl 2 – 400, NaCl – 10.3, KCl – 9.4, CaCl 2 – 1.7, SO 4 2- – 1.4。

[0070] Lithium carbonate was extracted according to the method described in Example 1, wherein the lithium carbonate precipitation rate of reaction (1) was 88%, and the final product consisted of (% by weight): lithium carbonate> 99.99, Na 4 2- and NH 4 + Not found.

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PUM

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Abstract

The invention discloses a method for extracting ultrahigh-purity lithium carbonate from chloride brine with a high magnesium-lithium ratio. The method comprises the following steps of: preparing a lithium chloride concentrated solution by an adsorption, desorption and evaporation concentration process; purifying, and precipitating lithium carbonate by using ammonium bicarbonate pulp; and converting into a lithium bicarbonate solution, filtering, and decarburizing. By improving steps and parameters of the conventional process, the purity of a product is more than 99.99 weight percent and the total amount of major impurities is not more than 0.002 weight percent without the introduction of additional high-cost purification steps such as ion exchange resin / membranes; and additional sodium ions are not introduced in the production process, byproducts at all stages can be recycled, and only an extremely small amount of waste solution is generated.

Description

[0001] technical field [0002] The invention relates to an inorganic salt extraction process, in particular to a method for extracting ultra-high-purity lithium carbonate from high-magnesium-lithium ratio salt lake brine, especially chloride-type brine. [0003] Background technique [0004] Lithium is an important strategic resource, which mainly exists in nature in two forms of solid minerals and liquid minerals, among which lithium reserves in salt lake brine account for 69% of the world's reserves. Lithium carbonate is the most critical product in the lithium industry. It can not only be used to make ceramics, medicines, catalysts, etc., but also the basic material for the production of secondary lithium salts and lithium metal. [0005] Many methods for extracting lithium carbonate from salt lake brine have been disclosed in the prior art. These methods mainly include the steps of concentrating salt solution, removing impurity ions and using ammonium carbonate or sod...

Claims

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Application Information

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IPC IPC(8): C01D15/08
Inventor 丽亚伯采夫亚历山大德米特里维奇吉达列恩科瓦列里伊万诺维奇美热列丝拉丽萨吉毛费耶娃库拉科夫亚历山大亚历山大洛维奇古希娜叶丽扎维塔别特洛夫娜考祖巴拉娜达丽娅巴夫洛夫娜
Owner JIANGSU HAILONG LITHIUM IND TECH
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