SU149030A1 - The method of regeneration of spent photographic bleaching solutions - Google Patents

Description

In the treatment of a known film, red blood for salt is used as a bleaching agent, which is then reduced to yellow blood salt.

In the spent solution, in addition to the yellow blood salt (4-8 g / l), there is red blood for salt (6-20 g / l), sodium thiosulfate (0.2-1.5 g / l), potassium bromide ( 1.5-5 g / l), iron and gelatin complexes.

The method of oxidizing spent bleaching solutions by bromine, which is released by electrochemical means, is known.

The method is carried out in an electrolyzer, which is a bath divided into cathode and anode spaces using carbon plates as electrodes.

The proposed method for the regeneration of spent photographic bleaching solutions by oxidation with bromine released by electrochemical lutem, in contrast to the known method, is carried out in a bath without diaphragm partitions.

The regeneration process is carried out in an electrolytic cell, representing an opaque, diaphragm-free bath, the anode of which is graphite, the cathode is stainless steel. The distance between the electrodes is 60-70 mm.

The anodic current density is 1, the cathode current density is much higher, achieved: by reducing the cathode area.

The process of electrolytic regeneration of spent bleaching, according to the author, is reduced to the following reactions: at the anode - 2Fe --- + Вгг - 2Fe + 2W

2Bg - Br2 -f 2e at the cathode - 2H 4-2e -

No. 149030-2 -

In order to avoid cathodic reduction of the red blood salt, potassium bromide is added to the yellow blood salt, the amount of which in the electrolyzer should be equal to the amount of the yellow blood salt in the electrolyte. In the case of large electrolyte contamination, the total amount of potassium bromide should be 1-3 g / l higher than the amount of yellow blood salt.

In the process of electrolysis, the gel acid is completely oxidized to the red blood salt, sodium thiosulfate and iron complexes are destroyed, gelatin is collected on the electrolyte surface, the qualitative composition of potassium bromide remains unchanged.

Regenerated bleaching after filtration can be used to test a known film. The regeneration rate depends on the anode current density and has the following values:

at D1A 0.5 a1dm - 3.0 hours; D1A 1.0 a / (g2 - 1.5 hours; D1A 1.5 a / dm - 1.0 hour; D1A 2.0 a / dm - 0.5 hour.

The current output is:

at D1A 0.5 - 1.5 a / dm - 29.8%; D1A 2.0 a / dm - 44%.

Subject invention

The method of regeneration of used photographic bleaching solutions by oxidation of them with bromine, separated by electrochemical means, characterized in that the regeneration is carried out in a diaphragmless bath.