SU1664753A1 - Method of acidic sewage treatment - Google Patents

Abstract

The invention relates to the treatment of industrial wastewater and can be used in the circulating water supply of pickling and electroplating departments in the ferrous metallurgy and other industries and improves the effectiveness of preventing the formation of calcium sulfate deposits when reusing clarified water. For the implementation of the method, a mixture of milk of lime and gypsum-magnetite seed is introduced into the acidic wastewater of electroplating in the following ratio of components, wt%: milk of lime / based on active calcium oxide / 2.3 - 3.4, gypsum 1.22 - 2.45, magnetite 0.93 - 1.92, water the rest. The proposed method makes it possible to reduce the rate of formation of calcium sulfate deposits from 0.58 to 15 g / m ^2. Table 3.

Description

The invention relates to the treatment of industrial wastewater and can be used in the circulating water supply of pickling and electroplating departments in the steel industry and other industries.

The aim of the invention is to reduce the calcium sulfate content in recycled water.

EXAMPLE 1 Acid wash effluent after analysis for pH, the content of sulfuric acid and iron sulfate is divided into three samples.

The first sample is treated with lime milk (4%) only to a pH of 8.5. The second sample is first neutralized with lime milk to a pH of 8.5, then a gypsum-magnetite seed is introduced, the third sample is treated with a lime-magnetite mixture.

(IC) obtained by pre-mixing three volumes of milk of lime (4%) and one volume of hypomagnetite seed (also to pH 8.5). In all experiments, the treatment is carried out to the same pH value of 8.5, with the goal that the amount of calcium introduced into the water with milk of lime is the same.

After stirring for 2 minutes, all three samples are settled for 2 hours in cylinders, after which the content of CaSO and the degree of supersaturation of CaSO in the clarified layer are determined in clarified water.

The results of the experiments for different waters are given in Table 1.

It can be seen from the tabl, 1 that for wastewater with different contents of sulfuric acid and iron, when processing IC, a higher cleaning efficiency is observed.

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compared with the preliminary neutralization and the subsequent introduction of the seed.

A similar result was obtained for the treatment of wastewater containing sulfuric acid and chromium.

Example 2: Experimental conditions are similar to Example 1. Acidic water of the same compositions is treated with IC at various concentrations of its constituents.

The effect of the composition of the mixture on the quality of the clarified water is given in Table 2, and in Table 3 the water quality indicators after settling for 2 hours.

As can be seen from Tables 2 and 3, the effect is observed only when the content of milk of lime in terms of active calcium oxide is 2.3-3.4 wt.%; gypsum 2.45-1.22 wt.%, magnetite 1.92-0.93 wt.%.

Example In order to determine the stability of clarified water and the rate of formation of deposits after processing the IC with the mixture, experiments were carried out under production conditions at one of the ferrous metallurgy plants.

In the upper layer of clarified water of a working radial clarifier and a tank of clarified water, steel indicator plates are installed, which are kept for 50-80 days when water is treated with lime milk, neutralized with lime milk and injected with seed and during IC processing.

The results of the experiments are given in table.4.

From the data given in Table 4 it can be seen that the rate of formation of deposits in

the tank of clarified water supplied for reuse when processing IC has the lowest value of 0.15 g / m2 h (at a rate of 0.25 r / m h).

Using the proposed method of purifying acidic wastewater will increase the amount of recycled water in the circulating water supply, while reducing the flow of additional water into the system.

pure water due to the fact that the content of calcium sulfate in the clarified water is reduced and the compactibility of the precipitate is improved. In addition, the service life of the system without equipment repair and cleaning increases, as the amount of deposits on metal surfaces is significantly reduced.

Claims (1)

The invention of the method of purification of acid wastewater including neutralization with lime milk to a pH of 8-10, the introduction of a gypsum-magnetite seed, settling and separation into clarified water and sediment, characterized in that, in order to increase the effectiveness of preventing the formation of calcium sulfate deposits when reusing clarified water, milk of lime and hypomagnetite seed are pre-mixed with the following ratio of components, wt.%: Lime milk (in terms of active calcium oxide 2.30-3.40 Gypsum 1,22-2,45 Magnetite0.93-1.92 WaterEverything T a C l c "1 table 2 Continued table. 3 Table 4