RU2534137C1 - Method of sewage water purification from metal ions - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: in a method of sewage water purification from metal ions, which includes processing with a reagent, mixing and separation of sediment, as the reagent applied is tetracalcium allumoferrite in a quantity of 100 mg/l.

EFFECT: reduction of the sorbent consumption.

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Description

The invention relates to a technology for water purification, in particular to the treatment of wastewater from metal ions by sorption.

A known method of treating wastewater from heavy metals and organic substances (SU No. 1560483, C02F 1/28, B.I. N 16, 1990), comprising treating with ash and separating the precipitate by sedimentation, in which the wastewater is first treated with ash first, containing calcium oxide 30-50%, to a pH value of 8.75 - 9.25, and then ash containing calcium oxide 3-5%, to a pH value of 6.5.

The disadvantage of this method is the high consumption of the sorbent in connection with the low sorption capacity of the ash in relation to heavy metal ions and the complexity of the process.

There is a method of wastewater treatment from heavy metal ions, according to which waste water containing zinc, copper, nickel, hexavalent and trivalent chromium ions is treated, converting heavy metals into their hydroxides, separating the precipitate (Akhmetov N.S. Inorganic chemistry. - M .: Higher School, 1975, p. 624).

The disadvantage of this method is the high consumption of the sorbent and the complexity of the method, since during the disinfection of heavy metal ions by converting them into the form of insoluble hydroxides, ions of various heavy metals are most fully converted to the form of hydroxide at various pH values. For this reason, a pH range in which a complete conversion of heavy metal ions to the form of insoluble hydroxides is simultaneously ensured cannot be chosen. Therefore, it is necessary to work in a certain pH range, as well as additionally introduce iron hydroxide in an amount of 50-250 mg / l in terms of iron. After separation of the metal hydroxide from the treated water, the effluent must be neutralized to a certain pH. The iron hydroxide used in this method is unstable in air and requires special storage conditions.

The closest in technical essence to the claimed technical solution is a method of treating wastewater from metal ions, which is based on the treatment of wastewater with ultrafine powders of aluminum and / or iron obtained by electric explosion of conductors, the powders are added to wastewater in an amount of 200-500 mg / l , stirred and after 0.5 h the precipitate was separated (RU No. 20133380 C02F 1/62, 05.30.94). The method allows to extract from wastewater metals such as chromium, lead, thorium, strontium.

The disadvantage of this method is the difficulty of obtaining the sorbent and the high consumption of the sorbent.

The problem to which the invention is directed is to reduce the consumption of sorbent, which leads to an increase in the efficiency of cleaning.

The problem in the proposed solution is achieved by the fact that in the method of wastewater treatment from metal ions, including treatment with a reagent, mixing and separating the precipitate, tetra-calcium aluminoferrite in an amount of 100 mg / l is used as a sorbent.

EXAMPLE OF SPECIFIC PERFORMANCE

The proposed method is as follows. As the filter material, four-calcium aluminoferrite is used. It is formed by the production of cement.

Wastewater containing chromium, lead, thorium and strontium ions with a concentration of 100 MAC is subjected to treatment. The treatment is carried out in a reactor with a volume of 10 m ³ . The crushed tetra-calcium aluminoferrite in an amount of 100 mg is placed in a reactor filled with water, stirred and left for 10 minutes. Then the precipitate is separated by settling. The residual content of metal ions in water is determined. Radioactive metals are determined by the method of radioactive indicators, heavy metals are determined by the photocolorimetric method. The results of the analyzes are shown in the table.

Thus, in the treatment of water containing ions of both heavy chromium and lead metals, and radioactive metals of strontium and thorium, almost complete removal of metal ions occurs if a reagent of 100 mg / l is added. The proposed method is simple to implement, reduces the consumption of the used sorbent, which leads to increased cleaning efficiency.

Used for Sorbent mass, mg / l The initial concentration of ions in water, mg / l Residual concentration of metal ions in water, mg / l cleaning sorbent Cr Pb Th Sr Cr Pb Th Sr offered Four Calcium Aluminoferrite (C ₄ AF) one hundred 1.00 10.00 5.00 5.00 0.00 0.00 0.00 0.00 prototype Ultrafine 200 1.00 10.00 5.00 5.00 0.01 0.10 0.02 0.04 powder 300 0.00 0.05 0.00 0.02 aluminum / iron 500 0.00 0.00 0.00 0.00

Claims (1)

A method of treating wastewater from metal ions, including treatment with a reagent, mixing and separating the precipitate, characterized in that the reagent is tetra-calcium aluminoferrite in an amount of 100 mg / L.