SU1114625A1 - Floculant for purifying water - Google Patents

Abstract

1. FLACULATE FOR CLEANING WATER, including mineral acid, sodium silicate and water, characterized in that, in order to reduce the preparation time and increase the degree of purification from organic impurities, it additionally contains pulverized activated carbon and poly-K, H-dimethyl-H , N-diallylammonium chloride in the following ratio of components, wt.%: Mineral acid 0.3-0.8 Sodium silicate 0, 3-1.0 Acid dust ,. carbon 0,01-0,1 Poly-H, -i-dimethyl-NH-diallyl ammonium chloride 0, 01-0,1 Water Remaining 2. Flocculant according to claim 1, distinguished by the fact that hydrochloric acid is used as the mineral acid or sulfuric, or nitric acid. Nt ;: o :) nd sp

Description

The invention relates to the purification of water by chemical methods, in particular, flocculation or sedimentation of suspended contaminants, and can be used as flocculant in the purification of natural and waste waters, as well as for the preparation of composite coagulating mixtures. The closest to the proposed technical essence and the achieved result is flocculant for water purification, containing hydrochloric acid, sodium silicate and water in the following ratio of components, wt.%: Hydrochloric acid 1-20 - Sodium silicate 1-10 Water Else This method is prepared by mixing the components, followed by aging for 2-9 days. A disadvantage of the known method is the long preparation time of the flocculant and the insufficient degree of purification of organic substances during its use. The aim of the invention is to shorten the preparation time of flocculation and increase the degree of purification from organic matter. This goal is achieved by using flocculate for water purification, including mineral acid, sodium silicate and water, which additionally contains pulverized activated carbon and poly-H, C-di methyl-N, N-diallylammonium chloride in the following ratio of components,% by wt. : Mineral acid0, 3-0.8 0.3-1.0 Sodium silicate Powdered activated carbon O, pi-0.1 Poly-N, N-dimethyl-N, N-diallylammonium chloride 0.01-0.1, Water Rest As the mineral acid, it is preferable to use hydrochloric or sulfuric or nitric acid. Flocculant is prepared by mixing all the ingredients in the proposed ratio. The effectiveness of flocculate is determined by introducing it into a composite coagulating mixture containing aluminum sulfate, sodium chloride and montmorillonite. The effectiveness of flocculation is checked during the purification of circulating flotation water containing 186 and 352 g / m of lignosulfonates, and waste water from a non-processing plant (runoff ELOU) with the following characteristics: COD-441 g / m, suspended substances 50 g / m Example 1. Flocculant is prepared by mixing 0.6 g of hydrochloric acid, 0.8 g (by SiO) -sodium silicate, 0.05 g of pulverized activated carbon, 0.1 g of poly-II, H-dimethyl -Y, Midallylammonium chloride and water - up to 100 g. Mix. After stirring, 101.55 g of flocculent sol of active silica acid is formed. To determine the effectiveness of this flocculating composition in wastewater treatment, a coagulating mixture is obtained from the latter. To do this, 1 g of floccule is mixed with 1 g of montmorillonite, O, 001 g of sodium chloride, 1 g of aluminum sulphate and water - up to 100 g. These waste waters are treated with a composite coagulating mixture. Example 2. Flocculant was prepared analogously to example 1, but sulfuric acid was used as the mineral acid. Example 3. Flocculant was prepared analogously to example 1, but nitric acid was used as the mineral acid. Example 4. A known flocculant was prepared by mixing 0.6 g of hydrochloric acid. O, 8 g (Si02) of sodium silicate and water - up to 100 g. Mix. After stirring, 101.4 sol of the active silica acid are obtained. Flocculating is kept for 5 days for aging. With the flocculant obtained, a composite coagulating mixture is prepared as in Example 1. Comparative data on the purification of recycled flotation water from oil refineries from dissolved and suspended organic substances are presented in Table. 1. P. of measure 5. To determine the boundary values of the components introduced into the composition of the flocculant, the experiments are carried out in the same way as described. The results are placed in the table. 2. From the data table. 2, it follows that only in the case of mixing the components in the quantities proposed is an increase in the degree of water purification possible. Technical and economic advantages of the proposed technical solution is that its implementation allows increasing the degree of wastewater treatment, as well as reducing the flocculant preparation time by eliminating the need for its maturation within 2-9 days.

Table 1

Flo - Content of components in flocculate, wt.%

58D

108.1

redagavfl 60.7 113.0 87.6 163.0 93.3 173.5 90.0 167.5 75.2 139.9 93.0 173.0 79.0 147.0 54.6 101.6 53 , 8 100.07 52.7 98.0

Continued table. 2

Continued table. 2

86

43

68.9

90

45 69.9

92

46 80.5

94

47 84.5

91

45.5 83.2

88

44 74.4

90

45 78.8

89

44.5 75.3

84.2

42.1 60.0

85.0

42.5 61.3

82.1

41.0 59.1

Continued table. 2

Claims (2)

1. Flocculant for water purification, including mineral acid, sodium silicate and water, characterized in that, in order to reduce cooking time and increase the degree of purification from organic impurities, it additionally contains powdered activated carbon and poly-N.L-dimethyl-S .N-diallylammonium chloride in the following ratio, wt.%: Mineral acid Sodium silicate Dusty activated carbon Poly-N, -K-dimethyl-M-H-diallylammonium chloride Water 2. A flocculant, which considers that hydrochloric or sulfuric or nitric acid is used as a mineral acid. Rest 11146 joint venture>