SU220254A1 - Method of obtaining manganese dioxide - Google Patents

Abstract

A method of producing manganese bioxide by electrolysis of manganese sulphate with a metal anode, characterized in that, in order to increase the current output and decrease the voltage on the bath, titanium coated with a layer of titanium is used as the anode.

Description

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1 There is a known method for producing manganese dioxide by electrolysis of manganese sulphate with a metal anode. According to the proposed method, titanium coated with a layer of titanium carbide is used as an anode. This makes it possible to increase the current output and lower the voltage on the bath. Titanium carbide is firmly bound to the base metal. Repeated use of a carbidized electrode as an anode does not change its mechanical and electrochemical properties. Unlike titanium, which is electrochemically passive due to the presence on its surface of a natural layer of poorly conducting oxide TiOj, titanium carbide is active and, at the same time, corrosion-resistant in the process of electrolysis. The electrolysis of manganese sulphate at 85-90 ° C and in the presence of free sulfuric acid in the case of using carbidized titanium anodes proceeds stably at a voltage of 1.8 V. The same results are achieved when using bar-shaped cermet titanium carbide as anodes. The resulting high-quality manganese dioxide deposits are characterized by high indicators by chemical composition and electrochemical activity. The table shows the results of electrolysis and the characteristics of manganese dioxide samples obtained on graphitized carbon electrodes (cathodes and anodes), as well as on carbonized titanium anodes and lead cathodes (MpO 100 g / l; 20 g / l) / After removing the carbidized titanium electrodes from The precipitate of manganese dioxide at the recovery is rapidly cooled and cracked and mechanically easily separated from the surface of the electrodes. This operation is also carried out in the separation of cathode metals produced electrolytically. The use of carbide titanium anodes, along with electrolysis performance improvements (current efficiency reaches 99% and the bath voltage decreases to 1.8 V), provides an intensification of the electromechanical process for manganese dioxide production. The capacity of the cell per unit volume increases by a factor of 2-3. The residue obtained on carbidized titanium electrodes contains more manganese dioxide, which is free from impurities that reduce the activity of the product.

Claims (1)

METHOD FOR PRODUCING Manganese Dioxide by electrolysis of manganese sulphate with a metal anode, characterized in that, in order to increase current efficiency and reduce voltage on the bath, titanium coated with a layer of titanium carbide is used as an anode. to b about A known method of producing manganese dioxide by electrolysis of manganese sulfate with a metal anode. According to the proposed method, titanium coated with a layer of titanium carbide is used as the anode. This allows you to increase the current efficiency and lower the voltage on the bath. Titanium carbide is firmly bonded to the metal base. Repeated use of a carbidized electrode as an anode does not change its mechanical and electrochemical properties. In contrast to titanium, which is electrochemically passive due to the presence of a natural layer of a poorly conducting current of Ti0 ₂ oxide on its surface, titanium carbide is active and, at the same time, is corrosion resistant during electrolysis.