RU2710615C1 - Method of sorption extraction of rhenium from aqueous solutions - Google Patents

Abstract

FIELD: metallurgy.SUBSTANCE: invention relates to hydrometallurgy of rare elements, in particular to methods of using organic sorbents for extraction of rhenium (VII) ions from aqueous solutions, including for subsequent determination of their concentration. Sorption extraction of rhenium from aqueous solutions is carried out. Sorption is carried out in a medium of an acetate buffer under static conditions with an organic sorbent while maintaining certain pH values and the sorbent : solution ratio with subsequent separation of the sorbent. Organic sorbent used is a polyallylamine-based sorbent, and the sorption is carried out while maintaining the pH value = 2.8–5.1.EFFECT: invention increases degree of sorption of rhenium from aqueous solutions.4 cl, 2 dwg, 2 tbl, 3 ex

Description

The invention relates to hydrometallurgy of rare elements, in particular to methods of using organic sorbents for the extraction of rhenium (VII) ions from aqueous solutions, including for the subsequent determination of their concentration.

Rhenium is a strategically important metal, since it is widely in demand in the aviation, nuclear and space industries. The main major raw materials for the production of rhenium on an industrial scale are molybdenum and copper sulfide ores. The content of rhenium in such raw materials is small and sorption is often used to extract it, since it refers to relatively simple, low-cost, well-controlled and energy-efficient processes characterized by the absence of secondary contaminants.

A known method of extracting rhenium from solutions, including its sorption on chitosan (Kim E., Benedetti M.F., Boulegue J. Removal of dissolved rhenium by sorption on to organic polymers: study of rhenium as an analogue of radioactive technetium // WaterRes. 2004. V. 38. No. 2. P. 448-454). Sorption was carried out from solutions with a rhenium concentration of 0.2-2 mg / L at pH 3-6.5 in the presence of 0.1-0.01 M KNO ₃ with the addition of chitosan (phase ratio during sorption T: W = 1: 250) . The main disadvantages of the method are the long duration of this process (7 days) and a low degree of sorption (not more than 50%).

Also known is a sorption method for the extraction of rare earth elements from solutions containing iron (III) and aluminum. Ampholyte with iminodiacetate functional groups was used as a sorbent, and sorption was carried out after preliminary neutralization or acidification of the solution to pH = 4–5 with any alkaline or acidic agent, followed by the introduction of ampholyte into the resulting pulp without separation of the solid part, with an ampholyte: pulp ratio of 1: 50 ÷ 150, phase contact time 3 ÷ 6 hours and in the presence of a reducing agent (RU 2484162, IPC С22 В 59/00, C01F 17/00, С22В 3/24, publ. 10.07.2012).

The disadvantages of this method are the duration of the sorption process, which is several hours to achieve high degrees of extraction, as well as the need for the introduction of additional reagents - reducing agents to eliminate the depressing effect of iron (III) impurities on sorption.

There is also known a method of extracting rhenium from solutions, including sorption using weakly basic anion exchanger KEP200, or A170, or A100, or A172, treated with a solution of sulfuric acid with a concentration of 3-15 g / l as a sorbent. Sorption of rhenium was carried out from technological solutions of underground leaching of rhenium under static conditions at a pH of 3.6-7. The solutions were contacted with anion exchange resin continuously with constant stirring for 24 hours at a volume ratio of anion exchange resin and a solution of 1: 1000 (RU 2618998, IPC С22В 61/00, С22В 3/24, publ. 11.05.2017).

The disadvantages of this method are the long sorption time and the need for processing the sorbent in a solution of sulfuric acid.

Closest to the claimed method is a method for extracting rhenium from aqueous solutions (prototype), including sorption of rhenium under static conditions at pH = 3 ± 0.1 using an organic sorbent - N-2- (2-pyridyl) ethylchitosan (PEC) at phase ratio T: W = 1: 500 (for a rhenium concentration of 5 mg / l) and using an acetate buffer solution from a mixture of NaOH and CH ₃ COOH as a medium. The method allows to extract rhenium from aqueous solutions with a degree of sorption of 97%, after 3-5 minutes of contacting the phases. (RU 2637452, IPC С22В 61/00, С22В 3/24, publ. 04.12.2017).

The disadvantages of the method are the insufficiently high degree of sorption of rhenium and low selectivity with respect to perrenate ions in the extraction of rhenium from solutions containing molybdate ions and copper ions.

The technical result of the claimed invention is to increase the degree of sorption of rhenium in the form of rhenium (VII) ions from aqueous solutions, including from aqueous solutions containing concomitant ions, by organic sorbents with a high degree of sorption and selectivity.

The specified technical result is achieved by the fact that in the method of sorption extraction of rhenium from aqueous solutions, including sorption of rhenium in an acetate buffer medium under static conditions by an organic sorbent while maintaining certain pH values and the sorbent: solution ratio, followed by separation of the sorbent, according to the invention, an organic sorbent is used a polyallylamine-based sorbent, and sorption is carried out while maintaining a pH of 2.8-5.1. At the same time, polyallylamine crosslinked with epichlorohydrin (PAA) is used as a polyallylamine-based sorbent, while maintaining a pH of 2.8-5.1, or pyridylmethyl-polyallylamine crosslinked with epichlorohydrin (PMPAA), while maintaining a pH = 3.0-3, 4, or imidazolylmethyl-polyallylamine crosslinked by epichlorohydrin (IMPAA) while maintaining a pH of 3.0.

Polyallylamine (PAA) crosslinked by epichlorohydrin has the formula:

Pyridylmethyl-polyallylamine crosslinked by epichlorohydrin (PMPAA) has the formula:

Imidazolylmethyl-polyallylamine crosslinked by epichlorohydrin (PMPAA) has the formula:

The use of polyallylamine crosslinked with epichlorohydrin and its derivatives as sorbents at a certain sorbent: solution in an acetate buffer solution (a mixture of 1 M NaOH and 1 M CH ₃ COOH) allows rhenium to be extracted from aqueous solutions with a sorption degree above 98% in 10 min of contacting phase and allows you to achieve a fairly low degree of influence of copper (II) and molybdenum (VI) ions on the degree of sorption of rhenium (VII) at a low consumption of sorbents.

Figure 1. The dependence of the degree of sorption of rhenium (VII) ions by sorbents on pH in an acetate buffer medium: 1 - PAA, 2 - PMPAA, 3 - IMPAA, 4 - PEC.

Figure 2. Dependence of the degree of sorption of rhenium (VII) ions on the sorption time: 1 - PAA, 2 - IMPAA, 3 - PMPAA, 4 - PEC.

The method is as follows.

Sorption of rhenium from aqueous solutions is carried out in a static mode at T = 20-25 ° C. An aliquot of 2.5, 5 ml of a rhenium solution with a concentration of 50 mg / l is placed in a 25 ml volumetric flask. In 25 ml of the solution add a sample of nitrogen-containing polymer sorbent. The required pH of the solutions is set with an acetate buffer solution prepared from a mixture of 1 M NaOH solution and 1 M CH ₃ COOH solution. Sorption is carried out for 10 min with constant stirring, after which the sorbent is separated by filtration.

Example 1. The dependence of the degree of sorption of rhenium (VII) on the acidity of the medium. In a solution containing perrenate ions with a concentration of 5 mg / l, with a pH from 2.8 to 5.1 (with an established acetate buffer solution prepared from 1 M NaOH and 1 M CH ₃ COOH), a weighed portion of the sorbent (0.05 g or 0.1 g). For sorption to occur, the solutions with the sorbent are left for a day at room temperature (20-25 ° C) and then the sorbent is separated by filtration through a green ribbon filter.

The rhenium content in the solutions is determined using an Optima 2100 DV atomic emission spectrometer (PerkinElmer). The degree of sorption (R) of rhenium is calculated as the ratio of the difference between the initial and residual rhenium content in the solution to the initial content, in%.

It was found that the studied polyallylamine crosslinked by epichlorohydrin and its derivatives exhibit good sorption ability with respect to rhenium (VII) ions (Table 1). Figure 1 shows the pH dependence of the degree of sorption of rhenium (VII) ions by the sorbents PAA, IMPAA, PMPAA and PEC. It was found that the maximum degree of sorption of perrhenate ions, as for PEC, is achieved in an acidic medium, and is higher than that of PEC:

- PEC at pH = 2.8-97.4%;

- PAA at pH = 2.8-5.1 - from 98.7 to 99.5%;

- IMPAA at pH = 3.0-98.3%;

- PMPAA at pH = 3.0-3.4 - from 97.7 to 98.7%.

Example 2. The dependence of the degree of sorption on time. Sorption of rhenium from its aqueous solution with a concentration of 10 mg / L with pH = 3 (established using an acetate buffer solution) is carried out on polyallylamine crosslinked with epichlorohydrin and its derivatives with constant stirring for 0, 1, 2, 3, 5, 10 , 20, 30, 40, 60 minutes For the PAA sorbent, as well as for the SEC, the phase ratio T: L = 1: 500, while for IMPAA and PMPAA, T: L = 1: 1000. According to the data obtained, a kinetic sorption curve is constructed.

The results are presented in Figure 2, which demonstrates that the equilibrium between the adsorbed ions and the studied nitrogen-containing polymer sorbents is achieved within the first 5-10 minutes, while the degree of sorption of rhenium (97-99%) is higher than the degree of sorption on PEC (92%) .

Example 3. The effect of copper and molybdenum on the sorption of rhenium.

In volumetric flasks with a capacity of 25 ml, a solution containing rhenium (VII) ions, as well as copper (II) or molybdenum (VI), was adjusted to the mark with acetate buffer with pH = 3. The concentration of rhenium (VII) in the flask is 5 mg / l, copper (II) or molybdenum (VI) - 250 mg / l. 0.025 or 0.05 g of the studied sorbents are added to the solutions and subjected to stirring for 10-30 minutes, after which they are filtered through a green ribbon filter.

Table 2 presents the degree of influence of γ (ReO ₄ ^- ):

Y (ReO ₄ ^- ) = 100% ⋅ (R ₀ -R _Me ) R ₀ ,

where R ₀ , R _Me is the degree of sorption of rhenium in the absence and presence of a concomitant ion, which shows how much the initial degree of sorption of rhenium in the presence of foreign ions decreases. The results indicate a decrease in the degree of sorption of rhenium by all sorbents in the presence of copper (II) and molybdenum (VI) ions, however, the degree of sorption of rhenium by polyallylamine, crosslinked epichlorohydrin, and its derivatives, is less affected by copper than molybdenum than by the degree of sorption of rhenium on the SEC sorbent.

The main advantages of the proposed method over others are a high degree of sorption, as well as the ability to carry out the sorption of rhenium (VII) from solutions containing copper (II) and molybdenum (VI) ions (not more than 50 times the mass excess).

Claims (4)

1. The method of sorption extraction of rhenium from aqueous solutions, including sorption of rhenium in an acetate buffer under static conditions with an organic sorbent while maintaining certain pH values and the sorbent: solution ratio, followed by separation of the sorbent, characterized in that a polyallylamine-based sorbent is used as an organic sorbent , and sorption is carried out while maintaining the pH = 2.8-5.1. 2. The method according to p. 1, characterized in that the polyallylamine-based sorbent is polyallylamine crosslinked with epichlorohydrin (PAA), and sorption is carried out while maintaining a pH of 2.8-5.1. 3. The method according to p. 1, characterized in that pyridylmethyl-polyallylamine crosslinked with epichlorohydrin (PMPAA) is used as a polyallylamine-based sorbent, and sorption is carried out while maintaining the pH = 3.0-3.4. 4. The method according to p. 1, characterized in that imidazolylmethyl-polyallylamine crosslinked with epichlorohydrin (IMPAA) is used as the sorbent based on polyallylamine, and sorption is carried out while maintaining pH = 3.0.

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