RU2581316C1 - Method for selective extraction of iron (iii) and zinc (ii) from aqueous solutions with tributyl phosphate - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a method for selective extraction of Fe (III) and Zn (II) ions from aqueous solutions of their salts by extraction with a mixture of tributyl phosphate (TBP). Method involves treating solution and extraction agent, contact of solution and extraction agent. Method includes adding an extractant in concentrations 2 n. HCl, 240 g/dm³ NaCl and a temperature t = 60 °C with minimal contact time of solution and extractant in interval of 10-60 minutes for almost complete extraction of iron in first portions of extractant with minimum extraction of zinc. After extraction of iron, zinc phosphate is almost completely extracted by extraction with TBP in concentration 3 n. HCl, 240 g/dm³ NaCl and a temperature t = 20 °C.

EFFECT: technical result consists in efficiency of selective extraction of Fe (III) and Zn (II) ions from aqueous solutions using cheap extractant and due to reduction of extractant consumption with addition thereof in portion.

1 cl, 5 dwg, 17 tbl, 3 ex

Description

The invention relates to the extraction of substances by organic extractants from aqueous solutions and can be used in non-ferrous and ferrous metallurgy, as well as for the treatment of industrial and domestic wastewater.

Known methods for the selective extraction of Fe (III) and Zn (II) ions by their hydrolytic deposition from aqueous solutions [G. Woldman, A. Zelikman Theory of hydrometallurgical processes. - M., Metallurgy, 1993, p. 303-307].

The disadvantages of the methods is that the selective extraction of iron ions and non-ferrous metals from such solutions by precipitation is difficult. Fe (II) ions are hydrolytically deposited together with the main non-ferrous metal ions. Fe (III) ions precipitate in a more acidic region, but non-ferrous metal ions and organic impurities also precipitate with them, since Fe (III) ions are coagulants.

The closest technical solution is the extraction of iron and zinc ions in the processing of solid and liquid waste [Abstracts of the IX International Conference “Resource-reproducing, low-waste and environmental technologies for the development of mineral resources”. Cotonou. Benin. September 13-19, 2010, pp. 404-406], in which the selective extraction of Fe (III) ions from a mixture of Fe (III) and Zn (II) salts is possible with tributyl phosphate (TBP).

The disadvantage of this method is that the optimal conditions for the selective extraction of Fe (M) and Zn (II) ions from aqueous solutions of a mixture of their salts have not been identified.

The objective of the invention is to determine the optimal conditions for the selective extraction of Fe (III) and Zn (II) ions from aqueous solutions of a mixture of their salts by extraction of TBP.

The technical result that can be obtained using the invention is the effectiveness of the selective extraction of Fe (III) and Zn (II) ions from aqueous solutions using an inexpensive extractant.

This technical result is achieved by the fact that in the known method for the selective extraction of Fe (III) and Zn (II) ions from aqueous solutions by extraction of TBP, including processing the solution and extractant, contacting the solution and extractant, the extractant is introduced at a concentration of 2 n. HCl 240 g / dm ³ NaCl and t = 60 ° C with a minimum contact time of the solution and the extractant, which makes it possible to almost completely remove iron in the first portions of the extractant with minimal extraction of zinc; after iron extraction, zinc is then almost completely extracted by extraction of TBP at concentrations of 3 n HCl, 240 g / dm ³ NaCl and t = 20 ° C.

The essence of the method is illustrated by the data of FIG. 1-5 and Tables 1-17, which indicate the contact time of the phases, the concentration of metal ions, the ratio of organic O and aqueous B phases O: B, the degree of extraction into the organic phase,% of the mass from the initial one, the distribution coefficient D is given at each stage calculated as the ratio of the equilibrium concentrations of metal ions in the organic and aqueous phases, the metal separation coefficient β, calculated as the ratio of the distribution coefficients of the corresponding metals.

Practical examples

Phosphoric acid tributyl ester (C ₄ H ₉ O) ₃ PO (chemically pure) was used as an extractant.

Example 1 (table 1-4, Fig. 1)

Extraction from solutions of iron and zinc salts at approximately the same weight content of iron and zinc ions.

In Tables 1-4 and in FIG. 1 shows the results of the extraction of iron and zinc from aqueous solutions of a mixture of their sulfates.

Table 2 shows the results of extraction with the portioned administration of TBP with a total volume of ΣV _TBP = 120 cm ³ at t = 20 and 60 ° C, C ^HCl = 3 N, 240 g / dm ³ NaCl. Extraction was carried out in 6 stages; TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5, and an extraction time of 10 min were used at each stage. With increasing temperature, zinc extraction at each stage decreases by a factor of 1.5–2, and iron decreases slightly. Iron recovery is almost complete after the second stage.

Comparison of extraction in stage 1 for 60 minutes using TBP V _TBP = 100 cm ³ (Table 1) and stage 6 (table 2) for 10 minutes (total 60 minutes) using TBP V _TBP = 120 cm ³ allows to draw the following conclusions:

1. With a portioned introduction of TBP, iron recovery is completed after the second stage when using TBP in a volume of V _TBP = 40 cm ³ .

2. With the portioned administration of TBP, zinc recovery increases: at t = 20 ° C from 38.80 to 91.05, and at t = 60 ° C from 22.36 to 67.16.

Table 4 shows the results of extraction with the portioned administration of TBP with a total volume of ΣV _TBP = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 2 N, 240 g / dm ³ NaCl. The extraction was carried out in 5 stages, TBP with a volume of V _{Τ BΦ} = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 min. An increase in temperature practically does not affect the extraction of iron, but it reduces the extraction of zinc by 1.5-2.0 times.

Iron recovery is almost complete after the second stage.

Comparison of extracts using TBP V _TBP = 100 cm ³ in 1 stage for 50 min and C ^HCl = 2 N, 240 g / dm ³ NaCl (Table 3) and for 60 min and C ^HCl = 3 N, 240 g / dm ³ NaCl (Table 1) allows us to draw the following conclusions:

1. Iron recovery does not change.

2. Zinc recovery does not change at t = 20 ° C and decreases by about 2 times at t = 60 ° C and a decrease in the concentration of hydrochloric acid.

3. The separation coefficient of metals does not change at t = 20 ° C and increases approximately 2 times at t = 60 ° C and a decrease in the concentration of hydrochloric acid.

Comparison of extraction in stage 1 for 50 minutes using TBP V _TBP = 100 cm ³ (Table 3) and stage 5 (table 4) for 10 minutes (total 60 minutes) using TBP V _TBP = 20 cm ³ at each stage allows you to draw the following conclusions:

1. With a portioned introduction of TBP, iron recovery is completed after the second stage when using TBP in a volume of V _TBP = 40 cm ³ .

2. With a portioned administration of TBP, zinc recovery increases: at t = 20 ° C from 39.33 to 67.23, and at t = 60 ° C from 13.12 to 34.42.

In FIG. Figure 1 compares the results of extraction with the portioned introduction of TBP at t = 20 and 60 ° C and the extraction time at each stage of 10 min from solutions of a mixture of salts with a concentration of C ^HCl = 2 n. and C _ref , g / dm ³ : 27.89 Zn and 29.00 Fe from solutions with a concentration of C ^HCl = 3 N. and C _ref , g / dm ³ : 26.83 Zn and 25.25 Fe; according to table 2 and 4:

1. The extraction of iron from solutions with a concentration of 240 g / DM ³ NaCl, 2 N. and 3 n. HCl and t = 20 and 60 ° C are approximately the same.

2. The smallest zinc recovery is carried out from solutions with concentrations of 2 n HCl, 240 g / dm ³ NaCl and t = 60 ° C.

3. The greatest extraction of zinc is carried out from solutions with concentrations of 3 n HCl, 240 g / dm ³ NaCl and t = 20 ° C

4. Extraction of zinc from solutions with a concentration of 2 N. HCl, 240 g / dm ³ NaCl and a temperature of t = 20 ° C and from solutions with concentrations of 3 N. HCl, 240 g / dm ³ NaCl and t = 60 ° C are approximately the same.

5. At stages 1-2, mainly iron is extracted, and after almost complete extraction of iron, intensive zinc extraction begins.

6. The extraction of iron is about 2.5 at t = 20 ° C and 5.4 times at t = 60 ° C exceeds the extraction of zinc.

7. The lowest separation coefficient β _{Fe / Zn} obtained by extraction from solutions with concentrations of 2 N. HCl, 240 g / dm ³ NaCl and t = 20 ° C.

8. The highest separation coefficient β _{Fe / Zn was} obtained by extraction from solutions with concentrations of 2 N. HCl, 240 g / dm ³ NaCl and t = 60 ° C.

9. The separation coefficients β _{Fe / Zn} obtained by extraction from solutions with concentrations of 3 N. HCl, 240 g / dm ³ NaCl and t = 20 and 60 ° C are approximately the same.

Example 2 (table 5-11, Fig. 2-3). Extraction from solutions of iron and zinc salts at a weight content of Zn> Fe ions.

Table 5-11 shows the results of the extraction of iron and zinc from solutions of a mixture of their sulfates at a mass ratio of Fe: Zn <1: 1. Extraction with tributyl phosphate (TBP) was carried out from solutions with a volume of V _rast = 100 cm ³ with a concentration of sodium chloride C ^NaCl = 240 NaCl g / dm ³ .

Table 5 shows the extraction results when using TBP with a volume of V _TBP = 200 dm ³ at t = 20 and 60 ° C, C ^HCl = 3 N., 240 g / dm ³ NaCl, total ΣO: Β = 2: 1, time extraction 40 min. Extraction is carried out in 2 stages, O: B = 1: 1, extraction time in stage 1 is 10 minutes, in stage 2 - 40 minutes. Iron recovery is about 1.2-1.4 times higher than zinc extraction. An increase in temperature practically does not affect the extraction of iron, but slightly reduces the extraction of zinc.

Table 6 shows the results of extraction using TBP with a volume of V _TBP = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 3 N., 240 g / dm ³ NaCl, extraction time 60 min. Extraction is carried out in 2 stages, at each stage O: B = 1: 2, extraction time at stage 1 is 20 minutes, at stage 2 - 60 minutes, the total ratio is ΣO: Β = 1: 1. Iron recovery is about 2.4 (t = 20 ° C) and 8.1 (t = 60 ° C) times that of zinc. An increase in temperature slightly increases the extraction of iron, but reduces the extraction of zinc by 2.2-3.1 times.

From the data in Tables 5 and 6 it follows that a decrease in the total O: B ratio and O: B ratio at each stage increases iron recovery compared to zinc extraction, and a temperature increase affects the iron recovery approximately the same, but reduces it by a factor of 2–3 zinc extraction.

Table 7 shows the extraction results when using TBP with a volume of V _TBP = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 3 N., 240 NaCl g / dm ³ , the total ratio ΣO: Β = 1: 1, extraction time 90 min. The extraction is carried out in 2 stages, O: B = 1: 2, the extraction time in stage 1 is 30 minutes, in stage 2 - 90 minutes. Iron recovery is approximately 2.0-3.0 times higher than zinc recovery. An increase in temperature reduces zinc extraction by 3.1 times in stage 1, and iron recovery is approximately the same in stage 2, zinc extraction decreases by 1.5-2.2 times.

From the data in Tables 6 and 7 it follows that an increase in the total extraction time and extraction time at each stage to a lesser extent change the iron recovery, and the zinc recovery at t = 20 ° C increases slightly, while the zinc recovery at t = 60 ° C rises 2.5 times.

Table 8 shows the results of extraction with the portioned administration of TBP with a total volume of ΣV _ΤБΦ = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 3 N, 240 g / dm ³ NaCl. The extraction was carried out in 5 stages, TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 minutes. The extraction of iron is approximately 2.0-2.5 times higher than the extraction of zinc. With increasing temperature, zinc recovery decreases by 1.5-2.0 times, and iron changes slightly. Iron recovery is almost complete after stage 2.

Comparison of extraction in 2 stages for 60 minutes using TBP V _ΤBP = 100 cm ³ (Table ⁶ ) and 5 stages (table 8) for 10 minutes (total 50 minutes) using TBP V _TBP = 100 cm ³ allows to draw the following conclusions:

1. With the portioned administration of TBP, iron recovery is completed after the second stage (when using TBP in a volume of V _TBP = 40 cm ³ ).

2. With the portioned administration of TBP, zinc extraction increases: at t = 20 ° C 2 times, and at t = 60 ° C 4 times.

Table 9 shows the results of extraction using TBP with a volume of V _ΤБΦ = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 2 n, O: B = 1: 1, extraction time 50 min. The extraction was carried out in 5 stages, TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 minutes. The extraction of iron is approximately 2 times higher at t = 20 ° C and 4 times higher at t = 60 ° C than zinc. An increase in temperature practically does not affect the extraction of iron, but reduces the extraction of zinc by 2 times. Iron recovery is completed in 3 stages.

Table 11 shows the results of extraction using TBP with a volume of V _ΦБΦ = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 2 N., 240 g / dm ³ NaCl, O: B = 1: 1, extraction time 50 minutes The extraction was carried out in 5 stages, TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 minutes. The extraction of iron is about 7 at t = 20 ° C and 10 times at t = 60 ° C exceeds the extraction of zinc. An increase in temperature practically does not affect the extraction of iron, but reduces the extraction of zinc by 1.5 times.

Due to the high concentration of iron and zinc, iron extraction continues at all stages of the process, however, after the second stage, iron extraction exceeds 50%.

Comparison of extraction in stage 1 for 50 minutes using TBP V _ΤBP = 100 cm ³ (Table 10) and stage 5 (table 11) for 10 minutes (total 50 minutes) using TBP V _TBP = 20 cm ³ at each stage allows you to draw the following conclusions:

1. The results of iron extraction at 4 stages with a portioned introduction of TBP and at a time of 10 minutes of single-stage extraction are the same, similarly at 4 stages with a portioned introduction of TBP and at a time of 50 minutes of one-stage extraction.

2. With the portioned administration of TBP, zinc recovery decreases by a factor of 2.5 at t = 20 ° C and by a factor of 1.5 at t = 60 ° C.

In FIG. Figure 2 compares the results of extraction with the portioned introduction of TBP and temperatures t = 20 and 60 ° C and the extraction time at each stage of 10 min from solutions of a mixture of salts with a concentration of C ^HCl = 2 n. and C _ref , g / dm ³ : 56.68 Zn and 30.00 Fe from solutions with a concentration of C ^HCl = 3 N. and C _ref , g / dm ³ = 57.67 Zn and 30.00 Fe.

In FIG. Figure 3 compares the results of extraction with the portioned introduction of TBP and temperatures t = 20 and 60 ° C and the extraction time at each stage for 10 min from solutions of a mixture of salts with a concentration of C ^HCl = 2 n and C _ref , g / dm ³ : 80.13 Zn and 61.25 Fe from solutions with a concentration of C = 3 N. and C _ref , g / dm ³ = 57.67 Zn and 30.00 Fe.

From the data of FIG. 2 and 3, we can draw the following conclusions:

1. The extraction of iron from solutions with a concentration of 240 g / DM ³ NaCl, 2 N. HCl and t = 20 and 60 ° C (Fig. 2) are approximately the same.

2. Extraction of iron from solutions with a concentration of 3 N. HCl, 240 NaCl g / dm ³ exceeds the extraction from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ (Fig. 3) due to the large difference in the values of the initial concentration of iron and zinc (2 times iron and 1.4 times zinc).

3. The smallest zinc recovery is carried out from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 60 ° C (Fig. 2) and 2 N. HCl, 240 NaCl g / dm ³ and t = 20 and 60 ° C (Fig. 3).

4. The greatest extraction of zinc is carried out from solutions with concentrations of 3 n HCl, 240 NaCl g / dm ³ and t = 20 ° C.

5. Extraction of zinc from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 20 ° C and from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 60 ° C are approximately the same.

6. At 1-2 stages with 3 n. HCl is mainly extracted from iron, and after almost complete extraction of iron, intensive extraction of zinc begins.

7. The lowest separation coefficient β _{Fe / Zn was} obtained by extraction from solutions with concentrations of 3 N. HCl, 240 NaCl g / dm ³ and t = 20 ° C.

8. The highest separation coefficient β _{Fe / Zn was} obtained by extraction from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 60 ° C.

9. The separation coefficients β _{Fe / Zn} obtained by extraction from solutions with concentrations of 3 N. HCl, 240 NaCl g / dm ³ and t = 20 and 60 ° C (Fig. 3) are approximately the same.

Example 3 (table 12-17, Fig. 4)

Extraction from solutions of iron and zinc salts at a weight content of Zn <Fe ions.

In tables 12-17 and in FIG. 4 shows the results of the extraction of iron and zinc from aqueous solutions of a mixture of their sulfates.

Table 14 shows the results of extraction with the portioned administration of TBP with a total volume of ΣV _ΤБΦ = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 3 n. The extraction was carried out in 5 stages, TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 minutes. With increasing temperature, the extraction of zinc at each stage decreases by 1.5 times, and iron increases by 1.5 times. Iron recovery is almost complete after the second stage at t = 60 ° C and exceeds 50% at t = 20 ° C.

Comparison of extraction in stage 1 for 20 minutes using TBP V _TBP = 40 cm ³ (Table 12), stage 1 for 30 minutes using TBP V _TBP = 60 dm ³ (Table 13) and stage 5 ( tab. 14) for 10 minutes (total 50 minutes) using TBP V _TBP = 100 cm allows you to draw the following conclusions:

1. With the portioned administration of TBP at t = 60 ° C, the iron recovery after the second stage when using TBP in a volume of V _TBP = 40 cm ^{3 is} completed, and at t = 20 ° C it is more than 50%.

2. With batch administration of TBP, zinc recovery is increased.

Table 17 shows the results of extraction with batch, stepwise use of TBP with a total volume of ΣV _ΤБΦ = 100 cm ³ at t = 20 and 60 ° C, C ^HCl = 2 N, 240 NaCl g / dm ³ . The extraction was carried out in 5 stages, TBP with a volume of V _TBP = 20 cm ³ , O: B = 1: 5 was used at each stage, the extraction time at each stage was 10 minutes. The extraction of iron is about 2 at t = 20 ° C and 20 times at t = 60 ° C exceeds the extraction of zinc. An increase in temperature increases iron recovery and decreases zinc recovery. Iron recovery is almost complete after the third stage at t = 60 ° C.

Comparison of extractions in stage 1 for 20 minutes using TBP V _ΤБΦ = 40 cm ³ (Table 15), stage 1 for 30 minutes using TBP V _ΤБΦ = 60 cm ³ (Table 16) and stage 5 ( tab. 17) for 10 min (total 50 min) using TBP V _ΤБΦ = 100 cm ³ allows us to draw the following conclusions:

1. At a time of 20 minutes, the results of iron extraction in the second stage of stepwise extraction exceed single-stage extraction, similarly at a time of 30 minutes in 3 stages of stepwise extraction and single-stage extraction.

2. With portioned administration of TBP, zinc recovery is slightly increased.

In FIG. Figure 4 compares the results of extraction with the portioned introduction of TBP at t = 20 and 60 ° C and the extraction time at each stage of 10 min from solutions of a mixture of salts with a concentration of C ^HCl = 2 n. and C _ref , g / dm ³ : 26.91 Zn, 57.50 Fe; from solutions with a concentration of C ^HCl = 3 N. and C _ref , g / dm ³ : 30.83 Zn, 50.25 Fe; according to table 14 and 17:

1. Extraction of iron as much as possible from solutions with concentrations of 3 N. HCl, 240 NaCl g / dm ³ and t = 60 ° C.

2. The extraction of iron is minimal from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 20 ° C.

3. The smallest zinc recovery is carried out from solutions with concentrations of 240 NaCl g / dm ³ , 2-3 n. HCl and t = 60 ° C.

4. The greatest extraction of zinc is carried out from solutions with concentrations of 2-3 N. HCl, 240 NaCl g / dm ³ and t = 20 ° C.

5. Extraction of zinc from solutions with concentrations of 2 N. HCl, 240 NaCl g / DM ³ and from solutions with concentrations of 3 N. HCl, 240 NaCl g / dm ³ at t = 60 ° C, as well as 2 n. and 3 n. HCl, 240 NaCl g / dm ³ and t = 20 ° C are approximately the same.

6. At a temperature of t = 60 ° C and from solutions with concentrations of 3 n. HCl, 240 NaCl g / dm ³ in stages 1-2, mainly iron is recovered.

7. The lowest separation coefficient β _{Fe / Zn} obtained by extraction from solutions with concentrations of 2 N. HCl, 240 NaCl g / dm ³ and t = 20 ° C.

8. The highest separation coefficient β _{Fe / Zn was} obtained by extraction from solutions with concentrations of 3 N. HCl, 240 NaCl g / dm ³ and t = 60 ° C.

Batch introduction of TBP with a minimum contact time of the solution and the extractant makes it possible to almost completely remove iron in the first portions of the extractant, while the extraction of zinc is minimal, after iron is extracted, zinc is almost completely removed in the future.

The batchwise administration of the extractant at a high iron content inhibits zinc recovery.

Batch recovery significantly reduces the consumption of extractant for almost complete extraction of iron and zinc.

The best results of the separation of iron and zinc and selective extraction of iron were obtained at concentrations of 2 N. HCl, 240 g / dm ³ NaCl and t = 60 ° C.

The best results of zinc extraction from an aqueous solution were obtained at concentrations of 3 N. HCl, 240 g / dm ³ NaCl and t = 20 ° C.

In FIG. 5 is a flow chart of the selective extraction of iron and zinc ions from aqueous solutions of their salts.

Claims (1)

A method for the selective extraction of Fe (III) and Zn (II) ions from aqueous solutions by extraction with tributyl phosphate (TBP), comprising introducing an extractant and contacting the solution and extractant, characterized in that the introduction of the extractant is carried out portionwise at a contact time of the solution and extractant in the range of 10-60 min with the introduction of each portion of the extractant with the complete extraction of iron in the first portions of the extractant and with a minimum extraction of zinc, and after iron extraction, zinc is extracted by extraction of TBP, while iron extraction is carried out at a concentration in the solution of 2 N. HCl and 240 g / dm ³ NaCl and a temperature of t = 60 ° C, and the extraction of zinc is carried out at concentrations in a solution of 3 N. HCl and 240 g / dm ³ NaCl and a temperature of t = 20 ° C.

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