SU899465A1 - Process for extracting fluorine from off-gases - Google Patents

Description

(54) METHOD FOR EXTRACTING FLUORINE FROM EXHAUST GASES

Claims (2)

This invention relates to a process for the purification of fluorine-containing gas streams that are formed during the acid or thermal decomposition of phosphate ores, as well as released in the production of hydrofluoric acid or fluoride salts. Purification of waste gases is associated with the disposal of trapped fluorine. A known method for extracting fluorine from waste gases containing 0.1-0.3 g / m of fluorine is absorbed by water or with weak solutions and HF. In this case, one obtains fluorosilicic acid or hydrofluoric acid with a concentration of 1-20% HjSiFfe and 2-3% HF, respectively. 1. However, upon absorption of gases diluted in fluorine, acids with a low concentration of HjSiFs and HF are formed, which complicates their further processing to fluoride and fluorosilicate. The closest to the proposed technical essence and the achieved result is a method of extracting fluorine from waste gases by absorbing them with a solution of aluminum fluoride 2. A disadvantage of the known method is the large losses of aluminum fluoride - 5-7%, due to the fact that at. storing solutions and using them to absorb fluorine gases results in the separation of a portion of aluminum fluoride in the solid phase, due to their loss of stability. The purpose of the invention is to reduce the loss of aluminum fluoride to 0.46-0.72%. This goal is achieved by the method of extracting fluorine from exhaust gases, which consists in absorbing them with a solution of aluminum fluoride, with silicon fluoride acid in an amount of 5-20 kg per 1 m of aluminum fluoride solution being introduced into the solution. The method is carried out as follows. Example 1. K10m3 of a solution of aluminum fluoride containing 25 g / l of aluminum fluoride is added 1m solution of hydrofluoric acid to a concentration of 100 g / l HjSiF, i.e. 10 kg of HjSiFe per 1 m of initial solution. By repeatedly circulating the resulting solution to an absorption 3899 apparatus, through which a gas containing 18 g / m of fluorine in the form of Slf and HF passes, is obtained after separation of the insoluble residue of 10.5 m of hydrofluorosilicic acid solution containing 135 g / l HjSiFs and 23.6 g / l A1 Rz . The loss of aluminum fluoride is 0.72%. Example 2. A kyum of a solution of fluoride-aluminum containing 30 g / l L1Rz, 1.48 m 5 of a solution of hydrofluoric hydrofluoric acid / acid containing 135 g / l H25 | RB and 23.6 g / l A1Rz, i.e. 20 kg / m HjSiFe- When processing the resulting solution of a gas containing 12 g / m of fluorine, and separating the insoluble residue, an 11 m solution of hydrofluoric acid, containing 120 g / l HiSiPe and 30.3 g / l AlFj, is obtained. In this case, the loss of aluminum fluoride is 0.46%. The proposed method is easy to carry out and reduces the loss of aluminum fluoride by 5-6% and eliminates overgrowth of the walls of the absorption apparatus. DETAILED DESCRIPTION OF THE INVENTION Method for extracting fluorine from waste gases by absorbing them with aluminum fluoride solution, characterized in that, with a reduction in the loss of aluminum fluoride, 5–20 kg per 1 m of aluminum fluoride solution is introduced into the solution before absorption. Sources of information taken into account in the examination 1.Galkin N.P. et al. Capturing and processing fluorine-containing gases. M., Atomizdat, 1975, p. 240 2. USSR author's certificate number 2443 P, cl. On 01 D 53/14, 1967 (prototype).