RU1807015C - Process for purifying sulfate-containing water - Google Patents

Abstract

Usage: for the purification of mine waters, surface runoff from industrial sites, wastewater and circulating waters of concentration plants of non-ferrous metallurgy, chemical industries and mineral fertilizers. SUMMARY OF THE INVENTION: the method comprises treating water with liming in the presence of aluminum oxocarbonates. 2 tab.

Description

The invention relates to methods for purifying sulfate-containing wastewater and circulating water and can be used to purify mine waters, surface runoff from industrial sites, wastewater and circulating water from non-ferrous metallurgy processing plants, and chemical fertilizer production.

The purpose of the invention is to reduce the consumption of aluminum-containing reagent and at the same time to soften the water without secondary pollution.

In the method of purification of sulfate-containing wastewater, including the treatment of water with liming in the presence of an aluminum-containing reagent, aluminum oxocarbonates (OKA) are used as the aluminum-containing reagent.

The method is carried out as follows. During the treatment of water, sulphates are precipitated as well as they are precipitated as solid solutions with a precipitate of calcium carbonate, which is formed due to interaction. lime and carbonate ion,

part of aluminum oxocarbonate. Separately, for the purification from S042, the precipitation method is impractical due to the high consumption of reagents, however, in the proposed solution, the coprecipitation complements the process of formation of calcium sulfoaluminates and allows to reduce the consumption of aluminum. Secondary pollution with CO 3 ions due to the low solubility of the resulting CaCO 3 is much lower than the MPC (60 mg / dm 3). Testing of oxocarbonates of the composition A12 (OH) 4CO3 and (OH) 5 (CO3) 2 showed their equal efficiency, the optimum precipitation value is 11.5-12.5, and the mixing time is 20-30 minutes.

PRI me R. To T dm3 of wastewater containing 1570 mg / dm3 SO42, 0.015 dm of aluminum oxocarbonate suspension with a concentration of A114.6 g / dm3 (OXA flow rate according to AI 220 mg / dm3) and 10% milk of lime is added, the pH is adjusted up to 11.8-12.2. The suspension is stirred for 30 minutes. In this case, precipitation of hydro

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calcium sulfoaluminate; and solid solutions of calcium sulfate and calcium carbonate. The residual content is 246.4 mg / dm3. Experiments with other OKA costs were carried out similarly - Table 1. For comparison, the water treatment is carried out according to the prototype - table 2. In order to purify the same wastewater to the same residual concentration (256.8 mg / dm3 S042), an OHA consumption of aluminum of 320 mg / dm is required, i.e. 1.45 times more than when using OKA.

It should be noted that in order to reduce the consumption of aluminum-containing reagents when the initial sulfate content in the treated water is more than 1500-1700 mg / dm3, it is advisable to remove them from the gypsum solution by liming and purify the clarified water using the methods described above.

The results of the experiments show that the consumption of AI in the proposed method is 1.2-1.45 times lower than in the prototype. In addition, due to the formation of CaCO3, there is a decrease in the residual concentration of calcium in the solution, i.e. the mind is swelling water. At the same time, achievement of the MPC standard for fishery reservoirs for sulfates (100 mg / dm3) guarantees its achievement for calcium (180 mg / dm3).

SUMMARY OF THE INVENTION A method for purifying sulfate-containing water, including liming treatment in the presence of an aluminum-containing

reagent, characterized in that, in order to reduce the consumption of aluminum-containing reagent and at the same time soften water without secondary pollution, aluminum oxocarbonates are used as a reagent.

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Cleaning pr the proposed Method.

Initial concentration S042 1570 mg / dm3, pH 11.8-12.2, stirring time 30 minutes.

Prototype cleaning.

The initial concentration of S04 is 1570 mg / dm. pH 11.8-12.2; stirring time 30 minutes;

Table

Table 2