RU2622204C1 - Method of extraction of cadmium and zinc from natural and wastewater - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method involves sorption using sorbent and elution of sorbed ions. For the sorption, stationary phases are introduced by introducing polystyrene-azo-benzene-azo-rhodanine polymeric chelating sorbent into the solution of the initial waters and the sorption process is carried out. The process is carried out at room temperature, pH 6-8 in dynamic mode with a water flow rate of 2 ml/min.

EFFECT: ability to selectively concentrate ions of cadmium and zinc in the presence of ions, a high sorption capacity of the sorbent for the ion of cadmium and zinc, the possibility of sorption in a weakly acidic and neutral medium, repeated use.

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Description

The invention relates to the field of analytical chemistry, chemical technology and ecology and can be used to determine small amounts of cadmium and zinc in wastewater and natural waters.

A known method of group extraction of elements from natural and waste water (1). The method includes sorption of Cu, Pb, Co, Cd, Mn, Fe, Zn, Ni, Cr on a polymeric chelating sorbent polystyrene-azo-2-hydroxy-3-methylene iminodiacetic acid, while sorption is carried out at pH 1.5-3.0 repeated at pH 5.0-7.5 for 120 minutes

The disadvantages of this method are the low selectivity to a particular metal, the complexity and the main disadvantage is the duration of the analysis.

There is also known a method of group extraction of Cu, Cd, Zn from aqueous solutions (2). The method involves the extraction of heavy metal ions from aqueous solutions by contacting them with modified active chlorotriazine dyes with cellulose-containing sorbents for 5-30 minutes at room temperature.

The disadvantages are non-selectivity, low degree of extraction, the complexity and duration of the analysis.

There is also a method of group extraction of Nickel, cobalt, cadmium and vanadium from solutions (3). The method includes introducing polystyrene-azo-4-hydroxy-3-arsenobenzene into a solution of a polymeric chelate sorbent and sorption is carried out at pH 4.5-6.0, room temperature and the solution is mixed for 10-15 minutes.

The disadvantage of this method is the indiscriminate concentration of cadmium ions in contrast to the proposed method.

There is also a method of extracting lead and cadmium from industrial water (4). The method includes introducing into the solution white sludge, which is a product formed by the autoclave removal of silicon and from aluminate solutions of alumina production, and the implementation of the sorption process with stirring of the liquid phase containing the above-mentioned impurities for 6-32 hours

The disadvantage of this method is that the sorption process is lengthy, in contrast to the proposed method.

There is also known a method of extracting zinc and nickel and obtaining a modified zeolite (5). A method for producing a sorbent involves mixing natural zeolite for 30 minutes with a solution containing hexamethyldisilazane in toluene, draining the toluene residue and drying the resulting sorbent for 3 days in the open air and then for 6 hours in a muffle furnace at 110 ° C. The sorbent is placed in a solution containing zinc or nickel ions, and shaken at a temperature of 20 ° C for 3 hours. Then, the residual metal content is determined by a microphotometer.

The disadvantage of this method is that the sorption process is long and extraction is required to determine the residual metal content, in contrast to the proposed method.

There is also a method of microbiological wastewater treatment of industrial enterprises from ions of heavy metals: zinc, cadmium and lead (6). The method consists in the fact that sewage treatment from heavy metals uses a bacterial mixture of microorganisms consisting of Prodococcus ruber strains (IEGM AC 219; IEGM AC 220; IEGM AC 221; IEGM AC 222; IEGM AC 338; IEGM AS 347). Wastewater containing heavy metals and ammonium acetate at a concentration of 2 g / L was placed in the flask, then a Prodococcus ruber culture was added to it, and after 72 hours the residual content of heavy metals was checked.

The disadvantage of this method is that the sorption process is long and additional reagents are required in contrast to the proposed method.

There is also known a method of treating wastewater and other acidic solutions containing arsenic and heavy metals - chromium, manganese, iron, nickel, copper, zinc, strontium, cadmium and lead. To implement the method, the processing of aqueous solutions is carried out in two stages with the removal of the precipitate formed after each stage, while in the first stage the precipitation is carried out with iron ions, then with an oxidizing agent, followed by adjusting the pH to 6.5-7.0, and in the second stage with trivalent ions iron, followed by adjusting the pH to 10.0-10.5. Both stages are carried out for 6 days.

The disadvantage of this method is that the sorption process is long and additional reagents are required in contrast to the proposed method.

There is also a method for determining zinc, cadmium, lead and copper in natural waters by the extraction voltammetric method (8). The method consists in the fact that the metals together with mercury are extracted into the exfoliating system water - antipyrine-sulfosalicylic acid - potassium thiocyanate, form the lower phase of the ionic organic liquid, an aliquot of which is applied to the surface of the graphite electrode, which is placed in a three-electrode cell with 0.1 mol / L KSCN, without delay, they supply a mercury accumulation potential of -1.4 V for 30 s and then, in the anode scan mode, record the voltammogram in the square wave mode in the range of -1.20 to +0.20 V in the form of anode oxidation peakszinc, cadmium, lead and copper.

The disadvantage of this method is that the sorption process is long and additional reagents are required in contrast to the proposed method.

The closest in technical essence is the method of extraction of cadmium from solutions (9). The method includes introducing into the solution a polymeric chelating sorbent - polystyrene-azo-rhodanine and the implementation of the sorption process at room temperature, pH 7-9 and the stirring time of the solution 20 minutes

The disadvantage of this method is the low sorption capacity in contrast to the proposed method.

The objective of the invention is the expansion of a number of sorbents with more selective functional-analytical groups (FAG) to cadmium and zinc ions and the study of their sorption properties.

The technical result is achieved by creating effective stationary phases for the extraction of cadmium and zinc ions by introducing into the solution a polymer chelating sorbent - polystyrene-azo-benzene-azo-rhodanine and performing the sorption process at room temperature, pH 6-8 and in a dynamic mode with a speed of 2 ml / min, and the process of extracting cadmium and zinc ions from wastewater and natural waters involves the use of a sorbent, the elution of sorbed ions and their determination by the AAS method, using polystyrene-azo as the sorbent benzene-azo-rhodanine, and as an eluent 2M HCl solution.

The essence of the method of extraction of cadmium and zinc ions from natural and waste waters includes the use of a sorbent, the elution of sorbed ions and the creation of stationary phases for the extraction of cadmium and zinc ions by introducing a polystyrene-azo-benzene-azo-rhodanine polymer chelating sorbent into the solution and performing the sorption process at room temperature, pH 6-8 and in a dynamic mode with a speed of 2 ml / min.

To assess the ability of the sorbent to concentrate, kinetic parameters, completeness of sorption of cadmium and zinc ions, and the influence of the matrix composition of the solution were considered.

Practical testing of a new method of wastewater treatment from zinc and cadmium ions

Samples of the plant of JSC Aviaagregat were taken as objects of analysis.

The excess content of cadmium and zinc ions was precipitated by alkali, filtered through a “blue ribbon” filter paper, and then a pH of 6–8 was created with 0.1 M solutions of NaOH and HCl. Sorbent weighing 3 g was placed in a chromatographic column and wastewater was passed through it at a speed of 2 ml / min, the sorbent was washed several times with distilled water, and the determined elements were eluted with 10 ml of a 2M HCl solution. The completeness of wastewater treatment was monitored by atomic absorption spectroscopy under optimal conditions for the analysis of the element under consideration.

The correctness of the new integrated method for treating wastewater from cadmium and zinc ions using model solutions is shown in table 1 and the method in water samples of the plant Aviaagregat OJSC in table 2.

Reproducibility was defined as the value of the relative standard deviation S _r .

The developed method for treating wastewater from zinc and cadmium ions with polystyrene-azo-benzene-azo-rhodanine made it possible with sufficient accuracy (S _r = 0.03-0.05) to extract the studied elements from large volumes of water samples of complex background composition.

As the results of the study show, the proposed sorbent is able to bring the concentration of zinc and cadmium ions to a limit below the MPC level.

The advantages of the proposed method are:

1. The ability to selectively concentrate cadmium and zinc ions in the presence of the following ions: Na ⁺ , K ⁺ , Ca ²⁺ , Ba ²⁺ , Mg ²⁺ , Sr ²⁺ , Cu ²⁺ , Fe ³⁺ , Al ³⁺ , Cr ³⁺ , Mn ²⁺ , Ni ²⁺ and Co ²⁺ .

2. An increase in the sensitivity of the sorbent to cadmium and zinc ions (sensitivity limit of the order of 10 ^-3 mg / l).

3. High sorption capacity of the sorbent for cadmium zinc ion (8.6 times higher than that of the prototype).

4. The possibility of sorption in a slightly acidic and neutral medium.

5. Repeated use (10-15 times).

References

1. N.N. Basargin, N.V. Chernova, Yu.G. Rozovsky, patent No. 1792923 - publ. 02/07/93, Bull. No. 5.

2. T.E. Nikiforova, V.A. Kozlov, O.I. Odintsova, M.I. Krotova, patent No. 2351548 - publ. 04/10/2009.

3. N.N. Basargin, I.E. Kiseleva, Yu.G. Rozovsky, patent No. 1678872 - publ. 09/23/93, Bull. Number 35.

4. M.E. Buraev, L.P. Lutsk, V.V. Kotomtsev, O.G. Makeev, L.N. Cherepanov, Yu.A. Zabaluev, V.V. Reznichenko, M.G. Mansurov, Yu.L. Baykin, E.P. Ustich, A.A. Karionov, M.G. Morozov, A.M. Buraev, E.S. Kulikov, S.V. Kostyukova, patent No. 2412756 - publ. 02/27/2011.

5. A.V. Makarov, A.K. Khaliullin, E.A. Rush, M.V. Obuzdina, O.N. Ignatova, patent No. 2524111 - publ. 07/27/2014.

6. G.N. Solovy, E.I. Ushakova, I.B. Ivshina, E.K. Raimova, patent No. 2216525 - publ. 11/20/2003.

7. S.N. Kurskov, V.N. Chupis, O.Yu. Rastegaev, patent No. 2390500 - publ. 05/27/2010.

8. S.V. Temerev, O.B. Loginova, patent No. 2383014 - publ. 02/27/2010.

9. M.A. Babuev, R.Kh. Arslanbeykov, A.M. Amirov, patent No. 2417952 - publ. 11/25/2009.

Claims (1)

A method of extracting cadmium and zinc ions from natural and waste waters, including sorption using a sorbent and eluting the sorbed ions, while stationary phases are created for sorption by introducing a polystyrene-azo-benzene-azo-rhodanine polymer chelating sorbent into the feed water solution and performing a sorption process at room temperature, pH 6-8 in dynamic mode with a water transmission rate of 2 ml / min.