RU1785519C - Method for purifying chromium-containing waste water - Google Patents

Abstract

The use of clean water from engineering plants, galvanic, industrial production, containing high concentrations of ions, rum (VI) Essence.: The cleaning process is carried out at a pH of 9.4-10.3 niflpotcuflOM iron (I) at a mass ratio of the reagent in terms of iron to “rum (VI) (6.8-8.0) 1 1 tab

Description

The invention relates to: the field of wastewater treatment from heavy metal ions, in particular from rum (VI) ions, and can be used in the treatment of fat-containing: wastewater: water engineering plants, galvanic, southern production,

The purpose of the invention is to increase the degree of purification from n: rome and to reduce the secondary pollution of purified water with iron ions ,,,

To carry out the process, water must be treated at pH 9.4-10.3 with iron (II) hydroxide at a weight ratio of iron (II) hydroxide (in terms of iron) to rum | VI) (5.8-8 , 0): 1 „

In this case, conditions are created for the almost complete restoration of rum (VI) to “rum (III) and its subsequent precipitation, as well as for the oxidation of part of iron (II) to iron (III) in such a way that, together, it ensures the achievement of the goal

Example In 1 l of a solution containing 70-700 mg of chromium (VI) at a pH of 9.4-10.3, iron (II) hydroxide is introduced with stirring in an amount of 5.8-8.0 Ig (in terms of iron (III ) per 1 mg of chromium | V ||, After 0.5 hours, the precipitate is separated out by filtration through a paper filter and an elta tape is analyzed and purified water is analyzed, the content of “rum (VI) and iron (table). Content of .rom (VI) was determined by the colorimetric method with dmfenipcarbazide, and the total iron content was determined with sulfosapiciploic acid.

Iron (II) hydroxide is prepared by mixing iron (II) 7-hydrous sulfate (GOST 4148-78) and sodium hydroxide (GOST 2263-71) in accordance with the reaction stoichiometry. The duration of the water treatment is 0.5 hours.

When implementing the method in the range of pH 9.4-10.3 and the mass ratio of iron hydroxide II (in terms of iron) to chrome (VI) 5.8-8.0 1 residual wallpaper content: t of opponents does not exceed the maximum permissible concentration (0.01 mg / p dp of chromium and 0 5 mg / n dp of iron).

When the pH of the system is less than 9.4, the required degree of evechepic rum is not provided, and the residual content of anpe iron exceeds PD1-.

ate with

VI 00

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with

10.3 non-tennologic, raic hook leads to an unjustified increase in reagent consumption.

With a decrease in the ratio of iron (II) to chromium (VI) below 5.8: 1, the residual content of Roma ions exceeds MPC (0.01 mg / l) .. With an increase in the ratio of iron (I) to: chromium (VI) above 8 , 0.1 the residual content of iron ions exceeds the MPC (0.5 mg / l).

The proposed method provides a reduction in the secondary pollution of purified water with iron ions and an increase in the degree of extraction of rum (VI) sludge of highly concentrated solutions to its almost complete absence, which allows the purified water to be discharged into the reservoir unit to be reused in the main technological process.

Formula invented and

The method of purification of chrome-containing wastewater, including the treatment of iron (II) hydroxide in an alkaline medium, on the basis of and with heme, which, in order to increase

the degree of purification from rum (VI) and the reduction of the secondary pollution of purified water with iron ions, the process is carried out at pH 9.4-10.3 and the weight ratio of iron (II) hydroxide (in terms of iron)

(VI.) (5.8-8.0): 1,