RU2036844C1 - Method of cleaning sewage water from fluorine - Google Patents

Abstract

FIELD: cleaning of sewage water from fluorine. SUBSTANCE: method involves introducing into sewage water to be purified of adsorbent - preliminarily neutralized white sludge obtained in the process of removal of silicon from aluminate solutions by means of retort in alumina production; mixing and separating liquid and solid phases (for example by filtering or settling). Adsorbent is introduced in weight ratio of (10-12):1 with respect to the amount of sodium fluoride contained in sewage water. EFFECT: improved quality of cleaning and simplified method of cleaning. 2 cl

Description

 The invention relates to the treatment of wastewater from harmful impurities (specifically from fluorine).

A known method of treating wastewater from fluorine by treating it with milk of lime to pH 8-11 and post-treatment with an adsorbent, followed by separation of solid and liquid phases. As an adsorbent, water-soluble titanium fluorides in an amount of 20-100 mg / l in terms of TiO _{2 are used} [1]
The disadvantage of this method is its complexity, since cleaning is carried out in two stages: treatment with milk of lime, then post-treatment with adsorbent.

Also known is a method of purification from fluorine, which involves the treatment of water with milk of lime and the formation of pulp. Sorption fluoride ion is carried out by passing the slurry through a porous layer in a mixed anion OH ^- SiO ₂ ^- form; treated effluents neutralize [2]
The disadvantage of this method is the use as an sorbent of expensive and scarce anion exchange resin. For its possible reuse, it is necessary to have a special technological circuit (for extracting fluorine ion from anion exchange resin). All this makes the industrial application of the method ineffective.

 Closest to the proposed is a method of treating wastewater from phosphates and fluorides with the introduction of a mixture of milk of lime and magnetite as a reagent with their mass ratio (4-2): 1, followed by stirring, settling and separation of the clarified layer [3] This method according to the technology simpler than the known methods, since it involves only one operation directly for sorption of the fluorine ion, the introduction of a reagent.

 The disadvantage of this method is that a two-component mixture is used as a reagent (milk of lime and magnetite in a certain proportion), which complicates the purification technology.

 The technical result of the invention is the simplification of cleaning technology.

 This drawback allows you to eliminate the proposed method of wastewater treatment from fluorine, the essence of which is as follows. An adsorbent is introduced into the wastewater to be treated, followed by stirring and separation of the liquid and solid phases, while the white sludge formed during autoclave removal of silicon from aluminate solutions of alumina production and preliminarily neutralized is used as an adsorbent. Sodium aluminosilicate in the form of nozean or sodalite "acts" as a fluorine sorbing element in a white slurry. White sludge is introduced in an amount 10-12 times higher than the content of sodium fluoride in the treated wastewater.

 First, the adsorbent is prepared. The white sludge after autoclave desiliconization and filtration of an aluminate solution is neutralized with hydrochloric or sulfuric acid and filtered.

EXAMPLES EXAMPLE 1 To 300 ml of effluent with a content of NaF = 5,7 g / l was added 7.5 g of dry white precipitate slurry was stirred for 2 hours at t = 40 ^{° C,} filtered. The residual NaF content in the solution was 3.2 g / L. The calculation shows that the white sludge adsorbed onto itself (5.7-3.2) x0.3 = 0.75 g of NaF or (0.75 ^. 100) / 7.5 = 10% of its mass, i.e. 1 g of NaF requires 10 g of white sludge.

PRI me R 2. To 300 ml of industrial waste with a content of NaF = 5.7 g / l was added 15 g of a dry precipitate of white sludge, was stirred for 2 hours at t = 20 ^o C, was filtered. The residual NaF content in the solution is 1.3 g / l. White sludge sorbed: (5.7-1.3) x x 0.3 = 1.32 g NaF or (1.32 ^. 100) / 15 = 8.8% of its mass, i.e., per 1 g NaF 11.4 g of white sludge are needed.

EXAMPLE EXAMPLE 3 To 300 ml of effluent with a content of NaF = 5,7 g / l was added 20.0 g of dry white slurry was stirred for 2 hours at t = ²⁰ ° C, filtered. The residual NaF content in the solution is 0.0 g / l. White sludge sorbed on itself (5.7-0.0) ˙0.3 = 1.71 g NaF or (1.71˙100) / 20 = 8.55% of its mass, i.e. 1 g of NaF requires 11.7 white sludge.

 From the above examples it is seen that the treatment of wastewater from fluorine is carried out efficiently if the adsorbent is introduced in an amount exceeding 10-12 times the amount of sodium fluoride contained in the wastewater, i.e. in a mass ratio (10-12): 1.

Thus, the use in the method of wastewater purification from white fluorine sludge from alumina production previously neutralized with mineral acid as a fluorine sorbing agent has the following advantages:
simplification of the cleaning technology, due to the exception of the preparation of a two-component reagent in the form of a mixture of milk of lime and magnetite;
cheaper cleaning, due to the cheapness and availability of white sludge as a by-product of alumina production;
possible use of spent white sludge in alumina production as a circulating product.

Claims (2)

 1. METHOD FOR CLEANING WASTE WATER FROM FLUORINE by introducing an adsorbent followed by mixing and separation of the liquid and solid phases, characterized in that pre-neutralized white sludge formed during autoclave removal of silicon from aluminate solutions of alumina production is used as an adsorbent.  2. The method according to claim 1, characterized in that the adsorbent is introduced in a mass ratio of 10 12 1 to the amount of sodium fluoride contained in wastewater.