RU2063458C1 - Extragent for isolating scandium - Google Patents

Abstract

FIELD: hydrometallurgy of rare metals. SUBSTANCE: as an extragent a 0.05-0.20 M solution of nitrogen-containing p-C₈-C₉-alkylated phenolformaldehyde oligomer in aromatic or saturated hydrocarbons is proposed. EFFECT: enabled isolation of scandium from chloride solutions.

Description

 The invention relates to hydrometallurgy of rare metals and can be used to extract scandium.

It is known to use a 0.1 mol / L solution of acetylacetone (2,4-pentadione) in benzene as an extractant for the extraction of scandium. The process is conducted by willow perchlorate solutions with an ionic strength of 0.1 and a concentration of scandium l0 ^-3 -10 ^-4 mol / L. The pH of the medium after extraction is 3.5-9.0. Quantitative metal recovery.

 The disadvantage of this extractant is that the effective extraction of scandium is achieved only with its low content in solution.

Closest to the proposed is the use of a 0.25 mol / L solution in toluene of a nitrogen-containing n-tert-butylphenol formaldehyde resole oligomer (molecular weight 460) as an extractant for the extraction of scandium. The process is conducted from a chloride solution with a metal concentration of 0.1 mol / L. The pH of the medium after extraction is 4.0-4.25, the distribution coefficient of scandium (D _Sc ) is 0.8-1.0.

 Since the conditions for the extraction of the prototype differ from those in which the proposed extractant works, a special experiment was performed. Extraction was carried out with a 0.1 mol / L solution of n-tert-butylphenol formaldehyde resole oligomer in toluene and a chloride solution with a metal concentration of 0.01 mol / L. The ratio of the volumes of organic and aqueous phases is 1: 1. The equilibrium pH of the solution is 4.10. The distribution coefficient of scandium is 2.80.

 The disadvantage of this extractant is the low distribution coefficient of scandium.

 The purpose of the invention is to increase the distribution coefficient of scandium and to expand the range of extractants used to extract it.

This goal is achieved in that it is proposed to use a nitrogen-containing n-alkyl (C ₈ -C ₉ ) phenol-formaldehyde oligomer (AFO) 0.05-0.20 mol / l, aromatic and saturated hydrocarbon diluents as an extractant.

 The prepared extractant is contacted with a scandium chloride solution having a metal concentration of 0.01 mol / L. The equilibrium pH value is 4.10-4.30.

При использовании экстрагента с концентрацией АФФО меньше 0,05 моль/л эффективность извлечения скандия значительно снижается. Экстрагент с концентрацией АФФО выше 0,20 моль/л использовать не представляется возможным из-за значительной его вязкости.The use of the proposed extractant increases the value of the distribution coefficient of scandium from 2.80 to 81.2-260 compared with the prototype [1]
The technical product used was nitrogen-containing n-alkyl (C ₈ -C ₉ ) phenol-formaldehyde oligomer, the molecule of which has 10.11 monomer units, with a nitrogen content of 4.5 wt. and with an average molecular weight of 2500. The AFFO formula is presented below. The specified reagent belongs to the class of phenol-containing oligomers

When using an extractant with an AFFO concentration of less than 0.05 mol / L, the efficiency of scandium extraction is significantly reduced. An extractant with an AFFO concentration above 0.20 mol / L is not possible to use because of its significant viscosity.

Example 1. A solution of nitrogen-containing n-alkyl (C ₈ -C ₉ ) phenol-formaldehyde oligomer in toluene with a concentration of 0.1 mol / l is contacted for 30 minutes with a chloride solution containing 0.01 mol / l of scandium. The ratio of the volumes of organic and aqueous phases is 1: 1. The equilibrium pH of the medium is 4.10. After phase separation, the value of D _Sc is 168.

Example 2. The extraction process is carried out as in example 1, but the content of AFFO in the extractant is 0.05 mol / L. After phase separation, the value of D _Sc is 81.2.

Example 3. The extraction process is carried out as in example 1, but the content of AFFO in the extractant is 0.20 mol / L. After phase separation, the value of D _Sc is 260.

Example 4. The extraction process is carried out as in example 1, but as a diluent, polyalkylbenzene is used. After phase separation, the value of D _Sc is 164.

Example 5. The extraction process is carried out as in example 1, but n-octane is used as a diluent. After phase separation, the value of D _Sc is 173.

Example 6. The extraction process is carried out as in example 1, but kerosene is used as a diluent. After phase separation, the value of D _Sc is 175.

 The proposed extractant allows to increase the extraction efficiency of scandium by increasing its distribution coefficient compared with the prototype from 2.80 to 81.2-260.

Claims (1)

An extractant for the extraction of scandium from chloride solutions containing a nitrogen-containing phenol-formaldehyde oligomer and an organic diluent, characterized in that it contains a nitrogen-containing p-alkyl (C ₈ -C ₉ ) phenol-formaldehyde oligomer and aromatic and limiting hydrocarbons as a diluent the ratio of components, mol / l:
p-Alkyl (C ₈ -C ₉ ) phenol-formaldehyde oligomer 0.05-0.20
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