SU889626A1 - Method of precipitating dispersed compound from alkaline waste water - Google Patents

Description

(54) METHOD FOR SECURING DISPERSED COMPOUNDS FROM ALKALINE WASTEWATER

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The invention relates to methods for precipitating dispersed compounds from alkaline wastewater and to be used to precipitate red mud from alkaline aluminate solutions obtained after leaching aluminum from bauxite.

A known method for the deposition of dispersed compounds with a developed surface, for example, non-ferrous metal carbonates, includes the introduction of magnetite and flocculant and treatment in a magnetic field p.

However, when precipitating substances that do not have a developed surface, for example, calcium carbonate and red mud, the effectiveness of wastewater treatment is significantly reduced.

The closest in technical essence and the achieved effect to the proposed is a method of precipitating dispersed compounds from alkaline wastewater, including the introduction of magnetite, flocculant and polymer compound and treatment in a magnetic field C2.

The disadvantage of this method is that an increase in pH of more than I and an increase in temperature lead to the dissolution of polymeric substances, which reduces the rate of precipitation of dispersed compounds. A decrease in pH and temperature leads to additional costs and increases the cost of processing alkaline alumina solutions.

The purpose of the invention is to increase the rate of precipitation of dispersed compounds from alkaline wastewater and reduce the cost of the process.

The goal is achieved by the fact that, in the deposition of dispersed soyo.dinoky from alkaline wastewater, including the introduction of magnetite and flocculant and processing in a magnetic field, the pulp or lignin is introduced into the wastewater and the process is carried out and the temperature

are at pH 60-90 C. 3 The method is carried out as follows. In a number of technological processes, which can be attributed to the deposition of red mud from alkaline aluminate solutions, thickening of arsenopyrig concentrates after alkaline autoclave processing, purification of sodium sulfide solution, it is advisable to carry out the dispersion of dispersed compounds at pH 1 1, used those polymeric hydroxides in these cases are not effective because of the dissolution of aluminum hydroxide and the conversion of iron hydroxide to crystalline sulphide precipitates, which degrades the natural sedimentation process. days of impurities. At the same time, the use of pulp and paper products: cellulose or lignin is quite effective. Example. The pulp obtained from the leaching of aluminum from bauxite, with a content of g / l: suspended solids 63, sodium hydroxide 41, with a temperature of 60-90 ° C, is placed in a glass cylinder and in a magnetic field of 200 J strength and treated with the introduction of various precipitants. In all cases, magnetite and polyacrylamide are introduced at concentrations of 40 g / l and 5 mg / l, respectively, and the precipitant is introduced at a concentration of 0.8 g / l. The results, reflecting the dependence of the rate of clarification of the solution on the pH value and the type of precipitant used, are presented in the table.

At pH -7-11, the rate of clarification of the solution during the precipitation of red mud is almost the same when using iron hydroxide, cellulose, and lignin as a precipitator. At pH 11-14, the rate of clarification of the solution using cellulose and lignin is much higher.

Thus, the proposed method allows to significantly increase the rate of precipitation of dispersed compounds from alkaline wastewater at pH 11-14 and to avoid the need to evaporate or reduce the temperature.

waste water, which is economically feasible for reuse of purified solutions for leaching aluminum from bauxite.

In addition, the method can be applied to thicken arsenopyrite concentrates and to clean sodium sulfide solutions from dispersed compounds.

Claims (1)

55 Formula of Invention " The method of precipitation of dispersed compounds from alkaline wastewater, including 889626-. 6 the introduction of magnetite and floccules n-sources of information, and the processing in a magnetic field, taken into account in the examination of the use of a magnetic field, with the aim of increasing the deposition rate u1. Japanese Patent No. 52-25586, process cheapening, to wastewater j cl. 91 S Oh, 1977. cellulose or lignin is introduced and the process2. USSR author's certificate carried out at pH 11-.I4 and at the tempo of application No. 2674010 / 22-03, 60-90 0.kl. At 03 On 1/00, 1978.