RU2006484C1 - Method of purifying sewage against chromium - Google Patents

Abstract

FIELD: sewage purifying. SUBSTANCE: sewage is treated by composition which contains, mass % : ferrum (11) sulfate 21.9-32.6 aluminium sulfate 11.0-16.3, sodium hydrocarbonate 21.9-32.6, starch 1.4-2.0, clay the rest. Molar ratio Fe (II): Cr(VI) is (2.80-3.40): 1, pH being 6.6-7.5. Precipitate is separated is separated by settling or by filtration. Residual chromium content in sewage is 0.01 mg/l. EFFECT: improves efficiency of the method. 1 tbl

Description

 The invention relates to wastewater treatment and can be used in wastewater treatment from hexavalent chromium ions.

 A known method of wastewater treatment from hexavalent chromium ions, including treatment with ferrous sulfate, precipitation and separation of the precipitate. The residual chromium content in purified water is 0.06-2.40 mg / l at its initial concentration of 20-200 mg / l. The disadvantage of this method is that it provides wastewater treatment from chromium to MPC values at its initial concentration in the solution of less than 50 mg / L.

 The closest technical solution is a method of treating wastewater from hexavalent chromium ions, based on the use of iron-aluminum chloride solution, followed by neutralization of wastewater. This method has an advantage over the above in the degree of wastewater treatment from hexavalent chromium ions. When the ratio of chromium (VI) and iron (II) ions is 1: 3.5, the chromium content in purified water does not exceed the MPC values at an initial concentration of chromium (VI) ions of up to 200 mg / l.

 A common drawback of the above methods of wastewater treatment from chromium (VI) ions is the relatively low degree of purification of concentrated effluents, as well as the increased content of residual iron in the treated water, since, as a rule, an excess of ferrous salts is used for water purification.

The aim of the invention is to increase the degree of wastewater treatment. This goal is achieved in that the wastewater treatment is carried out using a finely divided, powdery mixture of substances consisting of iron sulfate (II), aluminum sulfate, sodium bicarbonate, clay and starch, taken in the following ratio of components, wt. %:
Iron (II) sulfate 21.9-32.6
Aluminum Sulphate 11.0-16.3
Sodium bicarbonate 21.9-32.6
Starch 1.4-2.0
Clay rest
The wastewater treatment process is carried out at a molar ratio of hexavalent chromium ions to ferrous iron equal to 1: (2.80-3.04), intensively mixing the solution in the pH range of 6.6-7.5, followed by separation of the precipitate. As clay, bentonite is used.

 PRI me R. A mixture for the treatment of wastewater from chromium is prepared as follows. The starting materials are ground on a universal laboratory device AID type MPW-309 to obtain a finely dispersed, uniform powder mass. The crushed components are mixed in the indicated ratio, introduced into the water to be purified and stirred for 30 minutes at a pH of 6.6-7.5. The precipitate is separated by settling or filtering through a sand load. The cleaning results are presented in the table.

 The chromium content in the water after purification does not exceed 0.01 mg / L, which is significantly lower than the MPC values (0.1 mg / L). The residual content of iron ions in purified water does not exceed 0.10 mg /.

 An increase in the degree of purification of wastewater from chromium compared with the known method is achieved by the combined action of the components of the mixture. In the absence of one of the components in the mixture, as well as when the content of the components is below the boundary values, the degree of purification of wastewater from chromium decreases, i.e., the goal is achieved only partially. An increase in the content of components above the boundary values is impractical from an economic point of view, since it leads to an increase in the content of residual iron in purified water and practically does not affect the degree of purification of water from chromium. The optimal pH value for wastewater treatment is 6.6-7.5, and the molar ratio of chromium (VI) and iron (II) ions is 1: (2.80-3.04).

 The proposed method is based on the use of relatively cheap, widely available components, is easy to use, and provides a higher degree of purification of water from chromium than the known method. (56) Shutko A.P., Korotchenko V.S., Suprunchuk V.I. Treatment of chromium-containing wastewater with spent pickling solutions. - Chemical technology, 1989, N 6, p. 89-91.

Claims (1)

METHOD FOR CLEANING WASTE WATER FROM CHROMIUM by treatment with a chemical reagent, followed by stirring and separating the precipitate, characterized in that, in order to increase the degree of purification, a mixture of the following composition is used as a chemical reagent, wt. %:
Iron (II) sulfate 21.9 - 32.6
Aluminum Sulphate 11.0 - 16.3
Sodium bicarbonate 21.9 - 32.6
Starch 1.4 - 2.0
Clay, which is introduced at a molar ratio of Fe (II): Cr (VI) equal to (2.80 - 3.04): 1, and processing is carried out at pH 6.6 - 7.5.

Images