RU2088541C1 - Method of removing chromium from waste waters - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: invention is aimed to be used at leather industry enterprises. Method consists in treating waste water with ash fluid and lignin followed by settling and filtration. Treatment is first conducted with lignin to pH 3 and then with ash fluid to pH 8-9. EFFECT: increased purification degree and simplified process. 1 tbl

Description

 The invention relates to methods for wastewater treatment from harmful impurities, in particular from chromium, solid suspensions and soluble compounds in the wastewater of tanneries.

A known method of treating wastewater from copper and chromium ions by treatment with reagents, which use spent sulfidated sodium hydroxide, which is a waste of desulfurization of petroleum products and liquefied gases, sodium hydroxide [1]
However, this method does not achieve a significant degree of purification of wastewater from chromium and is a rather complicated process.

The closest in technical essence and the achieved result to the proposed one is a wastewater treatment method, which consists in treating wastewater with hydrolytic lignin to a pH of 5.5 [2]
This method also does not achieve a high degree of purification from chromium, especially with a significant concentration of organic substances, in the treatment of wastewater from leather industry.

 The objective of the invention is to increase the degree of purification of wastewater from chromium and increase the rate of deposition of solid suspensions.

The problem is solved in that in the method for purifying water from chromium, including treatment with reagents, followed by settling and filtering, according to the invention, ash liquid and lignin are used as reagents, the treatment being carried out first with lignin to pH 3 and then with ash liquid to pH 8
9.

 The consumption of ash fluid and lignin depends on the chromium content in the wastewater. Ash liquid is obtained at tanneries during the extraction of cattle raw materials, and lignin is produced at biochemical enterprises.

The process of wastewater treatment, for example, tanneries is carried out at a temperature of 10 30 ^o C and the pH of the cleaned solutions 4 5.

 Initially, lignin is introduced into the solutions to be cleaned to establish a pH of 3, then ash is added, bringing the pH to 8 9, after which the contents of the solutions are mixed for 5 10 minutes and left to contact for a period of 2 18 hours, depending on the degree of purification required . Studies have found that the use of fly ash and lignin helps to clarify the liquid phase from solid suspensions.

Example. The wastewater treatment experiments were carried out at the Kansk Tannery both in laboratory and in industrial conditions. In laboratory conditions, the experiments were carried out in containers with a capacity of 50 to 100 ml, and in industrial conditions in tanks with a capacity of up to 5 m ³ . The temperature of all studies is room temperature. Ash liquid was taken directly from the Kansk tannery, and lignin from the Kansk biochemical plant. The solutions were mixed with the added reagents by mechanical stirrers, the contact time of the solutions with the ash liquid and lignin ranged from 2 to 18 hours, after which the solutions were sedimented, filtered and analyzed for the content of chromium and sulfides.

 In parallel, experiments were conducted on wastewater treatment at the Kansk Tannery at the time of the prototype, where hydrolysis lignin to pH 5.5 was used as reagent. The prototype experiments were carried out under the same conditions and reagent costs. The results of the experiments are shown in the table.

From the data given in the table it follows that at a flow rate of lignin to pH 3 and ash liquid to pH 8 9, the chromium content in wastewater at 4 hours of contact with reagents decreases from 4.6 6.0 g / l to 0.2 1, 2 ml / l, and sulfides from 1.677 g / l to 32.9 28.8 mg / l according to the proposed method, while according to the prototype for the same period of time the chromium content is reduced only by 30%
Thus, in comparison with the prototype, the proposed method allows to increase the degree of wastewater treatment from chromium and sulfides and to utilize waste (ash liquid and lignin).

Claims (1)

 A method of treating wastewater from chromium, including treatment with reagents followed by sedimentation, characterized in that the treatment is carried out first with lignin to pH 3 and then with ash liquid to pH 8 9.

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