SU742390A1 - Method of waste water purification from fluorine - Google Patents

Description

The invention relates to methods for treating wastewater from fluorine and can be used in glass, chemical, metallurgical, aluminum, and other industries that have waste water contaminated with fluorine. There is a known method for purifying wastewater from fluorine by treating them to oh stage lime milk, and on the 2nd - aluminum sulphate. The aluminum hydroxide formed from the sorbent absorbs fluorine from the effluent and the latter is separated by sedimentation in the form of sediment 1. The disadvantage of the method is that the duration of the sewage purification process from fluorine is low. In addition, in the cleaning process there is a high consumption of reagents. The prototype of the invention is a method of purifying wastewater from fluorine, which includes treating them with lime milk, separating the liquid and solid phases by settling, treating the veined phase with a mixture of aluminum sulphate and water glass solutions for 30-60 minutes and secondary depletion 2 The disadvantage of this method is the duration of the process and high consumption of reagents. In order to speed up the process and reduce the consumption of reagents, the introduction of a mixture of solutions of sulfate and liquid glass into the liquid phase is carried out during electrotreatment of the latter. In this case, electrical processing is carried out -, | at a current density of 0.8-2.4 A / dm. The essence of the method is that waste water containing 3-7 g / l of fluorine is neutralized with lime milk to a pH of 7-8, stirred, the mixture is separated by settling on a liquid and solid phase. The clarified water (liquid phase) with a fluorine content of 10–15 mg / l is subjected to electrotreatment with the simultaneous introduction of a mixture of solutions of aluminum sulphate and liquid glass in a 4: 1 ratio. After electrotreatment at a current density of 0.8-2.4 A / dm for 5-7iMHH, the wastewater is directed to a septic tank and then sent to a turnover or lowered into the sewer system. With the introduction of a mixture of aluminum sulphate and liquid glass into the electrolyzer, through which the cleaned effluent is passed, the purification of water from fluoride ions occurs mainly due to chemisorption processes: the interaction of fluoride with aluminum hydroxide AE (OH) released by electrolysis and the resulting complex compounds in the form ((A, p) Si.O - and AE (OH) S04. In this case, under the action of current, not only acceleration of the formation and deposition of coagulated suspensions occurs, but also the intensification of complex physicochemical processes of interaction twi ooi fluorine with the indicated hydrate compounds

Example: Sour fluorine-containing runoff, obtained by chemical polishing of crystal, with a content of 3-7 g / l of fluorine is treated with lime milk before.

The mixture is stirred and settled for 60 minutes.

The clarified effluent (liquid phase) with a residual fluorine content of 10.3 mg / l is subjected to electrical treatment and a mixture of aluminum sulphate and liquid glass is simultaneously introduced in the form of 10% solutions in a 4: 1 ratio in the amount of 15-20 l / m wastewater .

Electrical treatment is carried out in the mode: current strength 0.8-2.4 A / dm, voltage 2.5 V, processing time 5-7 min

Fluorine is separated from the purified effluent by settling in the form of a precipitate, and the clarified water is drained into the sewage system or sent to the circulation.

In comparison with the known method, the proposed method makes it possible to shorten the process time by 12 times and the amount of reagents while reducing the cost of cleaning by 2 times.

Claims (2)

1. The method of sewage treatment with the sgg of fluorine, by treating them with lime milk, separating the liquid and solid phases by settling, introducing a mixture of solutions of aluminum sulphate and liquid glass into the liquid phase and subsequent settling, characterized in that, in order to speed up the process and reduce the consumption of reagents, the introduction of a mixture of solutions of aluminum sulphate and liquid glass into the liquid phase is carried out during electrotreatment of the latter. 2. A method according to claim 1, characterized in that the electroprocessing is carried out at a current density of 0.82, 4 A / dm. Sources of information taken into account in the examination 1.Milovanov A.V. Wastewater treatment of non-ferrous metallurgy enterprises. M. Metallurgi, 1971, p. 148-149. 2. USSR author's certificate number 550346, cl. C 02 C 5/02, 1975 (prototype).