SU644736A1 - Method of purifying waste water from amines - Google Patents

Description

The invention relates to methods for the purification of industrial wastewater from accompanying impurities and can be used by the IB chemical industry to purify wastewater from amines.

Long chained amines, such as ANP, laurylamine, cetylamine, etc., are extremely toxic and their maximum permissible concentration in wastewater "should not exceed 0.1-0.05 mg / l. . There are known adsorption methods for treating sewage from amines.

The disadvantage of this method is not sufficiently high degree of purification and consumption of expensive reagent.

The closest to the invention to the technical essence and the achieved result is a method for purifying wastewater from amines by filtration through a brown coal column 2.

By a known method brown coal with a high content of humic acids is used. A decrease in the concentration of amine in the solution is achieved at a flow rate of 2 tons of brown coal per 1000 m of wastewater in two stages within 30 minutes at each stage. The degree of cleaning is insufficient and does not exceed 90%.

Brown coal is an energy raw material, its expiration is limited, and its use for wastewater treatment is therefore impractical. In addition, a long mixing time (about I h) requires large capital and operating costs.

The purpose of the invention is to increase the degree of purification of waste VOD from amines. This goal is achieved by the proposed method of sewage purification from amines by sorption on natural zeolites. The process technologist consists in filtering the effluent through a layer of natural zeolite.

To increase the adsorption capacity of natural zeolite, it is pretreated with a 1% hydrochloric acid solution. The adsorption of amines by zeolite in an aqueous medium proceeds irreversibly. The treated zeolite is not regenerated by either acids or alkalis. Under the influence of precipitation, desorption of amine does not occur with zeolite. The zeolite prepared for operation can be directly fed to the VIST pump, where during the transfer of the tails to the tailing pond there is almost complete absorption of the amine by the zeolite.

Example 1. 10 l of an amine solution with a concentration of 5 mg / l are mixed on a magic stirrer for 30 minutes with 30 g of zeolite with a scale of 0.16 + 0.05 mm treated with 1% hydrochloric acid solution.

The residual concentration of amine after filtering the solution is 0.05 mg / l. Degree of cleaning 99%.

Lriemer 2. Through a column with 30 g of zeolite prepared as in example 1, 10 l of ammonium solution with a concentration of 5 mg / l is passed at a rate of 20 l / h.

The residual amine concentration and degree of purification are the same as in Example 1.

Example 3. Bauxite flotation tails with amines (10 liters of tailings) with an initial amine concentration (ANP-200) of 200 mg / l and drain from the concentrate dehydration are mixed with a zeolite magnetic stirrer, as in Example 1.

The residual concentration of amyla after filtration of the purified water is 0.05 mg / l.

The implementation of wastewater treatment in the proposed method provides the possibility of more cost-effective wastewater treatment

water from amines while reducing capital expenditures for the construction of sewage treatment plants due to the use of tailing dumps and septic tanks at the enterprises.

Claims (2)

1.E.K.K.E. Adsorption of tridecylamine-on magnetite quartz ore in connection with the possibilities of sewage treatment by flotation. Physical and technical problems of mining. “Science, Siberian Branch. 1973, No. 1, p. 85. 2. Ivanovskiy B.V. et al. Wastewater treatment from fluoride ion and the collector of ANP. Physico-chemical basis of the processes of enrichment and metallurgy. Records of the Leningrad Mining Institute. G.V. Plekhanov, 1973, v. IV, no. 3