SU789421A1 - Method of purification of industrial waste water from phenols - Google Patents

Description

(54) METHOD FOR CLEANING INDUSTRIAL WASTE

one

The invention relates to methods for the treatment of domestic and industrial wastewater and can be used for the treatment of wastewater in the coking, metallurgical, metalworking and other industries.

A known method of continuous purification of wastewater from phenols by treatment with ozone-containing gas, carried out in a flow reactor 1. The ratio of ozone: phenol is from 20 to I. The degree of use of ozone is higher than in barbotage type reactors and reaches 95%. However, the degree of conversion of phenol is only 41-96%. At the same time, the initial concentration of phenol in water is 0.8–7.1 mg / l. Consequently, the maximum permissible concentration of phenol is not achieved, despite the complexity of the device used.

Thus, the method is not applicable to the treatment of highly contaminated wastewater from enterprises, nor to the purification of wastewater before discharging it into water.

The closest to the proposed technical essence is the method of phenols

wastewater treatment of phenols by ozonation, carried out in the mode of bubbling ozone-containing gas through wastewater 2. In this

5 method using ozone-air or ozone-oxygen mixtures with an ozone content of 1-2 vol. %, while reducing the content of phenol from 38-1240 TO; O, 1-1.2 mg / l. Ozone ratio; phenol ranges from 20 to 2.

The disadvantage of this method is the high specific consumption of ozone, namely, for every 1 kg of phenol from 2

15 to 20 kg of ozone. The speed of the oxidation process is very low and does not exceed 0.2 10 mol / s. But even such process indicators are maintained only if the pH of the medium is maintained at

There are 20 hard boundaries between 11 and 12. To maintain this pH, lime is required in order to contaminate the water with water-soluble inorganic compounds.

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The goal (of the invention is to increase the degree of purification of industrial wastewater, as well as reduce the cost of the process.

 This goal is achieved by the fact that the treatment of waste water with an ozonized gas is carried out in the presence of a 2pO catalyst: Cr20, CuO.

At the same time, the mixture of an ozone-air or ozone-oxygen mixture with waste water occurs in a flow reactor in the mode of gas bubbling through a liquid. The presence of a catalyst contributes to the intensification of the purification process due to a sharp increase in the reaction rate, compared with the oxidation of phenols with ozone without the presence of a catalyst, namely. In the experiments performed, the oxidation rate of phenol is 0.6-0.7 10 mol / s. instead of 0.2 10 mol / s without a catalyst. Such an increase in the overall oxidation rate by 30-35 times leads to an increase in the productivity of the apparatus, as well.

hence ,, - to reduce the cost of wastewater treatment. The ratio of ozone. Phenol is reduced to 0.4 by changing the reaction mechanism and the involvement of oxygen in a catalytic oxidative process.

Example 1 A ZnO: Cr „Ol: CuO catalyst is passed through a reactor with waste water with a phenol content of 240 mg / l and, countercurrently, an ozone-air mixture with an ozone content of 0.37% by volume. %, At kb catalyst amount 0.5 wt. % by weight of the working volume of the solution and the capacity of the apparatus for purified water from 0.3 to 0.15 l / h; the degree of conversion by phenol is from 43 to 99%.

P p and m e p 2. Through the reactor with a sample of catalyst ZnOtCr Oj: CuO pass the waste water containing phenol l4lO mg / l and, countercurrent: ozone-air mixture containing

ozone in it about 1.2. % When the amount of catalyst is 1.3 wt.% Of the weight of the working volume of the solution and the productivity of the apparatus with purified water is from 0.3 to 0.15 l / h, the degree of conversion by phenol is from 26 to 99%.

Using the proposed method of purifying industrial wastewater by treating with ozone-air mixtures in the presence of a catalyst provides, in comparison with the known methods and the following advantages:

a significant intensification of the process of oxidation of phenols with ozone by increasing the rate of phenol destruction by 30 times;

The removal of the wastewater treatment process from organic compounds, in particular, phenols, with ozone is about 3–7 times due to the use of a ZnO: Cr O: CuO catalyst.

Claims (1)

Invention Formula The method of purification of industrial wastewater from phenols by treatment with ozone-containing gas, characterized in that, in order to increase the degree of purification and reduce the cost of the process, the treatment is carried out in the presence of a catalyst ZnO: Crj, Oe; CuO. Sources of information taken into account in the examination 1, UK Patent  1468770, class From 02 to 1/38, published. 03/30/77. 2, Greenberg A.M. Desphenolization of wastewater from coking plants. M ,, Metallurgists, 1968, p.179.