Method for separating yttrium oxide from middle-yttrium europium-rich rare earth ore by grouping

A technology of rare earth ore and europium-rich type, which is applied in the fields of rare earth metal compounds, chemical instruments and methods, inorganic chemistry, etc., and can solve problems such as large water solubility, affecting process stability, and complex composition

Active Publication Date: 2019-06-14
CHANGCHUN INST OF APPLIED CHEMISTRY - CHINESE ACAD OF SCI
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, industrial practice shows that there are some problems in this process: because naphthenic acid is a by-product of petroleum processing, it has a complex composition and high water solubility, and the composition changes after long-term use, which affects the stability of the process; , prone to emulsification; affected by raw material composition and temperature, the separation coefficient of lanthanum and yttrium is small, which causes great difficulties in the separation of yttrium and lanthanum
However, during the long-term use of the HAB system, there are problems such as the difficulty of rapid analysis of the concentration changes of the two extractants on site, which limits its industrial application.

Method used

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  • Method for separating yttrium oxide from middle-yttrium europium-rich rare earth ore by grouping

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0048] Step 1: Use 1.0mol / L P507-20% isooctanol mixed system dysprosium and holmium grouping for medium yttrium and europium-rich rare earth ore liquid, the degree of saponification is 36%, the organic phase is back-extracted with 5mol / L hydrochloric acid, and the raffinate water phase It is light and medium rare earth enrichment (La~Dy component), and the organic phase is yttrium-rich material 1 (Ho~Lu Y component), Y 2 o 3 The grade is about 83%. 1.5mol / LP507 system was used to separate single rare earth from light and medium rare earth enrichment, the degree of saponification was 36%, and the organic phase was back-extracted with 3.5mol / L hydrochloric acid.

[0049] Step 2: Yttrium-rich material 1 uses 1.2mol / L P507-20% isooctyl alcohol mixed system erbium and thulium grouping, and the raffinate water phase is yttrium-rich material 2 (Ho Er Y component), Y 2 o 3 The grade was increased to 88%. The organic phase is thulium, ytterbium and lutetium concentrates, and the st...

Embodiment 2

[0052] Step 1: Use 0.5mol / L P507-0.5mol / L Cyanex272 mixed system Dysprosium-Holmium grouping for medium-yttrium-europium-rich rare earth ore liquid, the degree of saponification is 36%, the organic phase is back-extracted with 3.5mol / L hydrochloric acid, and the raffinate The phase is light and medium rare earth enrichment (La~Dy component), the organic phase is yttrium-rich material 1 (Ho~Lu Y component), Y 2 o 3 The grade is about 83%. 1.0mol / L P507 system was used to separate single rare earth from the light and medium rare earth enrichment, the degree of saponification was 36%, and the organic phase was back-extracted with 3.0mol / L hydrochloric acid.

[0053] Step 2: Yttrium-rich material 1 is divided into 0.5mol / L P507-0.5mol / L Cyanex272 mixed system erbium and thulium, and the raffinate water phase is yttrium-rich material 2 (Ho Er Y component), Y 2 o 3 The grade was increased to 88%. The organic phase is thulium, ytterbium and lutetium concentrates, and the strippin...

Embodiment 3

[0056] Step 1: Use 0.5mol / L P507-0.5mol / L P227 mixed system dysprosium and holmium to group the middle yttrium and europium-rich rare earth ore liquid, the degree of saponification is 36%, the organic phase is back-extracted with 3mol / L hydrochloric acid, and the raffinate aqueous phase It is light and medium rare earth enrichment (La~Dy component), and the organic phase is yttrium-rich material 1 (Ho~Lu Y component), Y 2 o 3 The grade is about 83%. The light and medium rare earth enrichment is separated by 1.2mol / LP507 system to separate single rare earth, the degree of saponification is 36%, and the organic phase is back-extracted by 3.5mol / L hydrochloric acid.

[0057] Step 2: Yttrium-rich material 1 is divided into 0.5mol / L P507-0.5mol / L P227 mixed system erbium and thulium, and the raffinate water phase is yttrium-rich material 2 (Ho Er Y component), Y 2 o 3 The grade of lutetium is increased to 88%, and the organic phase is thulium, ytterbium and lutetium enrichment, ...

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Abstract

The invention relates to a method for separating yttrium oxide from middle-yttrium europium-rich rare earth ore by grouping, and belongs to the field of rare earth extraction separation. The problem that the industrial application is limited due to the fact that the problems that naphthenic acid needs to be replaced in the long using process of the technological process of separating the yttrium oxide by an existing naphthenic acid system and an HAB mixed system and the difficulty of rapid analysis of the concentration changes of two extraction agents of the HAB system on the site is solved. The method comprises the steps that firstly, dysprosium and holmium grouping is carried out by adopting a P507 mixed system to obtain a yttrium-rich material 1 and light-medium rare earth enrichment, and single rare earth is separated from the light-medium rare earth enrichment by the P507 system; then the yttrium-rich material 1 is subjected to erbium and thulium grouping by adopting P507-isooctylalcohol and other mixed systems, a yttrium-rich material 2 and thulium-ytterbium-lutetium enrichment are obtained, and single heavy rare earth is separated from the thulium-ytterbium-lutetium enrichment; and finally, the yttrium oxide is separated and prepared by the yttrium-rich material 2 by adopting an HA-TBP mixed system. The grouping separating method has the advantages of advancement and reasonability, short technological process, low production cost, high adaptability, easy operation and control, and comprehensive technical and economic index performance is better than a naphthenic acid process, and practical application value is achieved.

Description

technical field [0001] The invention belongs to the technical field of rare earth extraction and separation, and in particular relates to a method for grouping and separating yttrium oxide from middle yttrium and europium-rich rare earth ores. Background technique [0002] Southern ionic rare earth ores have a complete distribution, mainly medium and heavy rare earths, rich in europium, terbium, dysprosium, erbium, lutetium, yttrium and other medium and heavy rare earth elements required for functional materials. They are unique strategic resources in my country. Ion-type ores are mainly distributed in Jiangxi, Fujian, Guangdong, Hunan and Guangxi provinces in southern my country. According to the distribution characteristics of rare earth ores, they can be divided into light rare earth type, medium yttrium rich europium type and high yttrium type (also known as heavy rare earth type). type). The distribution characteristics of medium yttrium and europium-rich rare earth ore...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22B3/40C22B59/00C01F17/00
CPCY02P10/20
Inventor 陈继邓岳锋李德谦李海连刘郁邹丹
Owner CHANGCHUN INST OF APPLIED CHEMISTRY - CHINESE ACAD OF SCI
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