RU1807014C - Method for rendering harmless of fluorine-containing sewage - Google Patents

Abstract

Usage: when degreasing waste technological solutions containing large amounts of fluorine. The aim of the invention is to increase the degree of neutralization of waste solutions containing large quantities of R. ion (100 g / l), due to the formation of poorly soluble silicofluoride compound. Precipitation is carried out with liquid glass at a mass ratio of sodium fluorine silicate of 4-5.3: 1 or a volume ratio of liquid glass and wastewater of 1.5-2.0: 1. 1 tab. 1 ave.

Description

The invention relates to the field of environmental protection and can be used in the disposal of waste technological solutions containing large amounts of fluorine.

The purpose of the invention is to increase the degree of neutralization of waste solutions containing large amounts of P-ion (100 g / l).

The method is carried out by precipitating fluorine with liquid glass at a mass ratio of sodium silicate and fluorine (4.0-6.0): 1 or a volume ratio of liquid glass and waste water of 1.5-2.0: 1.

The neutralization process is limited by the first reversible formation reaction, hydrofluoric acid, which subsequently interacts with the F-ion to form sodium hexafluorosilicate. An insufficient amount of water glass prevents the most complete deposition of the F-ion as NaaSIFe.

The introduction of sodium silicate to fluorine of less than 4.0 does not provide sufficient complete precipitation, since this amount is not enough to completely bind the F-ion to sodium hexafluorosilicate due to the fact that liquid glass is wasted on neutralization.

The introduction of more than 6.0 is impractical because excess liquid glass does not react, but only complicates the process of sludge dewatering.

Example. 100 ml of a nitrogen-hydrofluoric mixture, which is a spent technological solution containing 160 g / l of F-ion, is treated with the proposed amount of spent liquid glass with stirring and at room temperature for 10-15 minutes. The precipitate formed is filtered on a Buchner funnel. The residual fluorine content in the filtrate is determined by the photocalorimetric method.

The results are presented in the table.

ate

with

00

about

h |

about

When liquid glass is introduced in a volume ratio of 1: 2.5 or in a mass ratio of 6.0: 1, no filtrate is formed, and an excess of liquid glass makes it difficult to form a uniform precipitate.

The advantages of this method are:

the possibility of using spent liquid glass as a reagent, which is a waste of machine-building production, which significantly reduces the cost of the process;

the practical absence of filtrate after the precipitation process, which removes the problem of further disposal of fluorine-containing solutions;

the possibility of using the sludge obtained during the neutralization by this method as a catalyst for burning exothermic mixtures in the steel industry, which solves the problem of utilizing and disposing of toxic fluorine-containing production wastes;

excludes energy consumption for heating the reaction mixture.

SUMMARY OF THE INVENTION A method for neutralizing fluorine-containing wastewater, comprising depositing fluorine with an alkali metal salt, followed by separating the sludge, characterized in that that, in order to increase the degree of neutralization of spent technological solutions containing fluorine more than 100 g / l, the deposition is carried out with liquid glass at a mass ratio of silicate to three to fluorine of 4-6: 1.