SU1675393A1 - Electrolyzer for recovering metals from aqueous solutions - Google Patents

Abstract

The invention relates to non-ferrous metallurgy, specifically to lead hydrometallurgy, and can be used to electrolyte it from nitrate solutions. The purpose of the invention is to ensure the continuity of the process during the cleaning and replacement of the anodes. The electrolyzer contains a slider-type bathtub, disk cathodes and stationary anodes rotating on a common shaft, current leads, power collector, waste electrolyte chute, knives for cutting the cathode deposit. Each anode in the electrolyzer is made in the form of two plates independent of each other, mounted on both sides of the rotation shaft and having independent current leads. 1 sludge.

Description

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The invention relates to non-ferrous metallurgy, namely to lead hydrometallurgy, and can be used for its electrolytic separation from nitrate solutions.

The aim of the invention is to ensure the continuity of the process during the cleaning and replacement of the anodes.

The drawing shows the proposed electrolyzer.

The electrolyzer contains a slot-type bathtub 1, in which the disk cathodes 2, assembled in a single series on a common shaft of rotation, alternate and the anodes, made in the form of two independent plates 4, installed on both sides of the shaft of rotation with a gap sufficient for free rotation of the shaft. The anodes are connected to busbars 5 running along both sides of the bath. Top electrolyzer

closed by a cover 6 with slots for cathodes. Knives 7 are installed on the lid, made in the form of grooves, the edges of which fit snugly against the surface of the cathodes. A collector 8 of the power supply passes in the bath, and in the upper part a waste collector is connected to it.

The electrolyzer works as follows

A fresh solution is continuously fed into the bath 1 through the power collector 8 into the space between the electrodes, which is led out into the waste collector. The feed rate of the solution is regulated as follows. so that the acidity of the spent electrolyte is consistent with that required for its reuse in the production cycle. Current load is fed to the cathodes 2 through the shaft 3

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rotation, and on the anode plates 4 - through the current-carrying busbars 5.

During the whole process, the cathodes 2 are rotated. As the lead dioxide layers accumulate on the anode plates 4, periodically, without stopping the process, the outgoing busbars 5 are disconnected and removed from the bath to remove sludge, and fresh ones are put in place of the removed plate. In the same way do when the plate leaves the stro. When accumulating sludge, as well as in emergency situations, the process is stopped and the electrolyte is drained.

During the electrolysis of lead-containing solutions, a lead sponge is emitted at the cathode, which is continuously withdrawn from the bath and cut off by knives 7 mounted on the lid 6. Lead dioxide is released on the anode plates. When an anode plate is removed from a bath, its load is perceived by the remaining plates, and the increase in load on them with a large number of these elements is insignificant and does not affect the main technological indications of the process. The removed disc can be quickly replaced with fresh and

is aimed at cleaning or repair and% special installation in a known manner.

Compared with the known, the proposed electrolyzer has the following advantages:

simplified maintenance by eliminating complete disassembly of the electrolyzer to replace the anodes;

ensured the continuity of the process during the cleaning and replacement of the anodes.

Claims (1)

Invention Formula Electrolyzer for separating metals from aqueous solutions, predominantly lead, containing an escort type bath, stationary anodes and disk cathodes rotating on a common shaft, current leads, power collector, waste electrolyte collector and knives for cutting cathode sediment mounted on the lid cell, characterized in that, in order to ensure the continuity of the process during the cleaning and replacement of the anodes, each anode is made in the form of two independent plates mounted on both sides of the shaft Eni and having independent current leads.