Smelting method for comprehensively recovering rare earth and fluorine from bastnaesite

A technology of bastnaesite and smelting methods, which is applied to the improvement of process efficiency, calcium/strontium/barium fluoride, calcium/strontium/barium halide, etc., which can solve the problem of low value of fluorine resource recovery and utilization, and unrecovered heat Utilization, failure to meet sales requirements and other problems, to achieve the effect of improving utilization rate and economic benefits, increasing hydrochloric acid leaching rate, saving resources and energy consumption

Active Publication Date: 2019-03-26
中稀(凉山)稀土有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] (3) Industrial energy consumption is high, and water washing after alkali conversion needs to be heated with electricity or boiler steam, and the waste water after washing is directly discharged, and a large amount of heat has not been recycled
[0007] (4) The recovery and utilization valu

Method used

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  • Smelting method for comprehensively recovering rare earth and fluorine from bastnaesite
  • Smelting method for comprehensively recovering rare earth and fluorine from bastnaesite

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Embodiment 1

[0035] Such as figure 1 As shown, this embodiment provides a smelting method for comprehensively recovering rare earths and fluorine from bastnaesite. The method has simple steps, improves the hydrochloric acid leaching rate of bastnaesite, and efficiently recycles and utilizes resources. Specific steps are as follows:

[0036] Step 1: Roasting the bastnaesite with water vapor to obtain roasted ore and fluorine-containing gas; dissolving the roasted ore with hydrochloric acid for the first time to obtain the first leaching slag and the first leachate containing rare earth chlorides, the first leachate That is the rare earth solution.

[0037] Step 2: saponify the extractant with a calcium ion agent, saponify the rare earth solution with the saponified extractant, and get rid of the calcium-containing extraction wastewater; then the rare earth solution is back-extracted in hydrochloric acid to obtain a rare earth chloride solution; the calcium-containing extraction wastewater ...

Embodiment 2

[0039] Such as figure 1 As shown, this embodiment provides a smelting method for comprehensively recovering rare earths and fluorine from bastnaesite. The method has simple steps, improves the hydrochloric acid leaching rate of bastnaesite, and efficiently recycles and utilizes resources. Specific steps are as follows:

[0040] Step 1: Roast bastnaesite at 800-900°C, and at the same time 3 The dosage per kg*h is passed into water vapor, and roasted for 3-5 hours to obtain roasted ore and fluorine-containing gas; the roasted ore is dissolved with industrial hydrochloric acid for the first time, and the ratio of solid to liquid of roasted ore and hydrochloric acid is 1:1-1.5 (kg : L), and then obtain the first leaching slag and the first leach solution containing rare earth chloride, the first leach solution is the rare earth solution.

[0041] Step 2: saponify the extractant with a calcium ion agent, saponify the rare earth solution with the saponified extractant, and get rid...

Embodiment 3

[0043] Such as figure 1 As shown, this embodiment provides a smelting method for comprehensively recovering rare earths and fluorine from bastnaesite. The method has simple steps, improves the hydrochloric acid leaching rate of bastnaesite, and efficiently recycles and utilizes resources. Specific steps are as follows:

[0044] Step 1: Roast bastnaesite at 800-900°C, and at the same time 3 The dosage per kg*h is passed into water vapor, and roasted for 3-5 hours to obtain roasted ore and fluorine-containing gas; the roasted ore is dissolved with industrial hydrochloric acid for the first time, and the ratio of solid to liquid of roasted ore and hydrochloric acid is 1:1-1.5 (kg : L), and then obtain the first leaching slag and the first leach solution containing rare earth chloride, the first leach solution is the rare earth solution.

[0045] Step 2: According to the volume ratio of 1:0.8-1.5, P507 and sulfonated kerosene are mixed to prepare the extractant, and CaCO 3 The ex...

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Abstract

The invention discloses a method for comprehensively recovering rare earth and fluorine from bastnaesite, and relates to the technical field of smelting separation of bastnaesite. The method for comprehensively recovering rare earth and fluorine from bastnaesite comprises the steps that vapor is guided into bastnaesite for roasting, so that roasted ore and fluorine-containing gas are obtained; theroasted ore is dissolved for the first time with hydrochloric acid, so that first leaching residues and a first leaching solution containing rare-earth chloride are obtained, wherein the first leaching solution is a rare earth solution; an extraction agent is saponified with a calcium-containing iron agent, the rare earth solution is saponified with the saponified extraction agent, and calcium-containing extraction waste water is discharged; afterwards, the rare earth solution is reversely extracted in hydrochloric acid, so that a rare earth chloride solution is obtained; the calcium-containing extraction waste water reacts with the fluorine-containing gas to prepare a calcium fluoride product; and the rare earth chloride solution is deposited with sodium carbonate to obtain rare earth carbonate, and the rare earth carbonate is calcined at a high temperature to obtain rare earth oxide. According to the method for comprehensively recovering rare earth and fluorine from bastnaesite, thesteps are simple, the hydrochloric acid leaching rate of the bastnaesite is increased; and meanwhile, the resources are efficiently recovered and utilized.

Description

technical field [0001] The invention relates to the technical field of smelting and separation of bastnaesite, in particular to a smelting method for comprehensively recovering rare earth and fluorine from bastnaesite. Background technique [0002] Bastnaesite is the main mineral in the global rare earth industry. Representative mines include the Mountain Pass Rare Earth Mine in the United States, the Maoniuping Mine in Sichuan, the Baiyun Obo Mixed Rare Earth Mine in Baotou and the Weishan Lake Rare Earth Mine in Shandong. Baotou rare earth mine is a mixed type rare earth mine, in which bastnaesite: monazite is roughly 3:1. Sichuan bastnaesite and Shandong Weishanhu mine belong to bastnaesite of a single type of rare earth mineral, containing rare earth elements lanthanum, cerium, praseodymium, neodymium, samarium, europium, and gadolinium. The REO of these two types of rare earth ores is 50% About (calculated as rare earth oxides), fluorine is about 6%. [0003] In the e...

Claims

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Application Information

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IPC IPC(8): C22B1/02C22B3/10C22B3/38C22B59/00C01F11/22
CPCC01F11/22C22B1/02C22B3/10C22B59/00C22B3/3846Y02P10/20
Inventor 陈云阳启华吴金玲王日颜豪威廖华
Owner 中稀(凉山)稀土有限公司
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