SU144834A1 - The method of deposition of silver from fixative solutions and device for implementing the method - Google Patents

Description

The known electrolytic methods of separating cepeujja in the form of a metallic precipitate from working fixative solutions are inefficient because they require operation at low current densities.

The described method of silver deposition from fixative solutions by electrolytic deposition from cold electrolyte is designed for work with high current densities, which several times increases the electrolysis intensity and, therefore, provides high performance of the silver extraction process. This is achieved by the fact that silver is not isolated in the form of metal, but in the form of sulfide. allows you to conduct electrolysis at a current density of 140-200 a / lg. The resulting cathode sediment consists of well-filtered silver sulfide.

Devices commonly used to release silver from spent fixative solutions are cumbersome, inefficient, and their operation involves the use of manual labor and the release of gases, such as hydrogen sulfide, harmful to health and, in some cases, for the defective main products (photosensitive materials or the resulting image). In addition, the devices used are designed for the deposition of silver by only one method, for example, chemically m or electrolytic.

The described device for carrying out the method of silver deposition from fixative solutions allows silver to be separated both chemically and naked electrolytically from cold electrolyte, which makes the device universal, less dependent on the presence of one or another reagent. The described device is compact, eliminates the need for continuous monitoring of the process, eliminates manual labor, which is used only at the moment of unloading of the improved sludge. Finally, the use of this device eliminates the release of harmful gases into the atmosphere of industrial premises, which allows it to be installed in places where waste fixer solutions are formed.

The listed advantages of the device under pressure are achieved due to its successful design and its universal design is ensured by installing it in its sinking tank of electrodes, to which a constant electric current is supplied from the selenium assemblies. her.

The described device (see drawing) consists of two tanks 1 n 2 arranged one above the other, connected by a pipe 3, inside which is installed a valve or a clan, regulating the transfer of the null from the upper tank to the lower one. The upper tank serves to release silver from the spent fixative solutions, and under the lower tank there is a filter 4 and a collection tank 5 for collecting the waste solution that does not contain silver.

The sediment settling on the bottom of the tank 2, as it accumulates, is released into the filter 4 through the pipe 6 with the valve 7 To discharge the clarified solution that does not contain silver, there is a pipe 8 equipped with a clanan or a valve. The device is equipped, for example, with selenium connectors 9 connected to the AC mains, and the anode 10 and cathodes // attached to the terminals of the rectifier are mounted in the upper tank.

The entire device may have adequate shelters and be connected to the ventilation booster.

In the chemical method of silver deposition, silver precipitating reagents are added to the upper tank 1 filled with the spent fixative solution, such as sodium sulphide, angolite, formalin, metallic poropps and others. In the electrochemical method, no reagents are added, and // pass a constant current with a cathode density of 1-10-200 and / d.

At the end of the release of silver from the solution, it, together with the precipitate, is released, as mentioned, into the lower tank for settling, and a new rate of spent fixer solutions is added to the upper tank. In the filtered sediment after it is crushed, the silver content is more than 60%.

PRED MET INITIATED AND

Claims (2)

1. A method for precipitating silver from fixative solutions by electrolytic precipitation from a cold electrolyte, characterized in that electrolysis is carried out at a cathode current density of 140-200 a / m to electrolyte precipitate in the form of well-filtered silver sulfide. 2. A device for carrying out the method according to claim 1, consisting of two tanks arranged one above the other and connected by a pipe to a valve, and a filter installed under them, characterized in that, in order to precipitate silver as a chemical, so: and -) set The method is equipped with selenium rectifiers, and electrodes are installed in the upper tank. Re / gene network that