SU1116099A1 - Chloride-fluoride electrolyte for electrolytic refining of aluminium - Google Patents

Abstract

CHLORO-FLUORIN | ELECTROLYTE FOR ELECTROLYTIC ALUMINUM REFINING, including barium chloride, sodium chloride and cryolite, which, in order to reduce energy costs by reducing sludge formation during electrolyte subsidence, contains a cryolite with a cryolite ratio of 2.8-3.0 in the following formula ratio , wt.%: 55-60 Barium chloride 6-8 Sodium chloride Cryolite with a cryolite ratio of 2.8-3.0 Else

Description

WITH

one

The invention relates to the electrochemical purification of aluminum and is aimed at improving the existing electrolyte compositions of the refining baths.

The most widely used mixed chloride-fluoride electrolyte composition,%: BaClg 60; NaF 12-17; AlFj 23; NaCI 0-4, with a cryolite ratio of 1.04-1.48 13

During the deposition of the electrolyte of this composition, intensive sludge formation occurs, which is the cause of the sharp decrease in electrical conductivity and the existing increase in energy consumption.

The closest to the invention in technical essence and the achieved result is the electrolyte composition,%; BAC 58; NaF 14; AlF 18; NaCl 10, with a cryolite ratio of 1.55 C23.

Compared with the above, it has a higher electrical conductivity.

The disadvantage of this electrolyte is also high energy consumption during fusion due to intense lithium formation,

The purpose of the invention is to reduce energy consumption by reducing the formation of scrap during fusion of the electrolyte.

The goal is achieved by the fact that the chloride-fluoride electrolyte for electrolytic refining of aluminum, including barium chloride, sodium chloride and cryolite, contains cryolite with a cryolite ratio of 2, ..., 0 in the following ratio of ingredients, wt.%:

Barium chloride 55-60

Sodium chloride 6-8

Cryolite with cryolite ratio

2.8-3.0 Else

The proposed electrolyte composition makes it possible to significantly reduce sludge content 160992.

formation during its fusion by eliminating the hydrolysis of aluminum not bound in cryolit-fluoride. The presence of sodium chloride in the indicated amount completely prevents the formation of such refractory sludge components such as fluoride and barium fluoride. In addition, the combination of ingredients makes it more (O conductive compared to the prototype electrolyte.

The indicated limits for the variation of the ingredients are as follows:

} t; A decrease in the concentration of sodium chloride to below 6% leads to the appearance of sludge in the electrolyte in the form of a fluoride and barium fluoride chloride.

When the cryolite ot2Q is reduced below 2.8, sludge formation also occurs due to hydrolysis of aluminum fluoride to form.

In both cases, a sharp increase in the resistivity of the salt melt is observed, which is accompanied by an increase in the energy consumption for electrolyte fusion,

A magnitude of sodium chloride content of more than 8%, as well as a cryolite ratio of more than 3.0, leads to contamination of high-frequency aluminum with sodium,

The invention has been tested under laboratory conditions. The control over slagging and electrical conductivity was carried out both during the deposition of the electrolyte and during the 8-hour settling period 5 stipulated by the technological regulations. The test results are shown in the table.

The data obtained show that with the same grade of the obtained metal, the power consumption at

- preparation of the proposed electrolyte compared with the known lower by 7-10%.

 metal does not match the quality of AVC.

Claims (1)

CHLORIDE-FLUORIDE ELECTROLYTE FOR ELECTROLYTIC REFINING OF ALUMINUM, including barium chloride, sodium chloride and cryolite, characterized in that, in order to reduce energy consumption by reducing sludge formation during electrolyte deposition, the electrolyte contains cryolite with a cryolite ratio of 2.8-3 , 0 in the following ratio of ingredients, wt.%: Barium Chloride 55-60 Sodium Chloride 6-8 Cryolite with Cree. olite ratio of 2.8-3.0 Rest 1 116099