SU494343A1 - Electrolyzer for producing oxygen and filtration type hydrogen - Google Patents

Description

one

The invention relates to filtering tin electrolysis cells used for the electrolysis of water.

A known electrolyzer for producing filter-type oxygen and hydrogen, containing bipolar electrodes consisting of main electrodes made in the form of continuous metal sheets, and remote electrodes attached to them made in the form of a metal grid, gas separation diaphragms, asbestos cardboard nanometer. , sandwiched between each pair of adjacent remote electrodes, the electrolyte supply channel and the gas exhaust channels.

The electrical contact between the main and remote electrodes is made through numerous anchors welded to the main electrode along its surface or flared in specially drilled holes. The disadvantages of the known construction are the complexity of the structural design of the contact node of the main and remote electrodes, the need to make the main electrodes of considerable thickness to secure the anchors in them, which weakens the design, as well as the difficulty of uniform installation of the diaphragm during the installation of the electrolyzer.

In order to eliminate these drawbacks, an electrolytic cell is proposed, which has metal rings having an external diameter equal to the external diameter of the external electrodes arranged respectively one between each main and external electrodes, the rings are provided with through-slots for communicating the electrolytic cavity with the feed channel and the gas exhaust channels .

FIG. 1 shows the proposed electrolyzer, general view; in fig. 2 - end view; in fig. 3 is a cross-sectional view with a cut-out of the upper part of the electrolyzer; in fig. 4 shows a section along A-A in FIG. 3; in fig. 5 is a section through BB and B-B in FIG. four.

The package of cells 1 is fastened with clamping plates 2 with the help of pins 3. The electrolyte is supplied to the electrolyzer through the middle frame 4

with the help of choke 5, the gases formed during the electrolysis are discharged through 6. The main electrodes 7 are in contact with the mesh external electrodes 9 through the metal rings 8. The gas separation diaphragms 10 are clamped between the remote electrodes 9.

Metal rings 8, bonded to the main electrodes, have an outer diameter equal to the outer diameter of the external

electrodes 9. The rings 8 are equipped with 11 nozzles communicating the internal cavities of the cell with the gas channels 12 and 13.

When assembling the cell of the electrolyzer, the remote electrodes 9 are superimposed on the rings 8, a gas separation diaphragm 10 is superimposed on the remote electrodes, on the reverse side of which is placed the remote electrode of the second polarity, pressed against the diaphragm by the second metal ring 8. To increase the reliability of the current lead, the remote electrodes can be attached to metal rings using diffusion welding.

When the electrolyzer operates on opposite electrodes, oxygen and hydrogen are formed, which, through the slots 11 in the corresponding metal rings 8, are diverted to oxygen and hydrogen gas channels. In this case, the main electrodes can be made of a thin material, for example, from nickel or steel nickel-plated foil with a thickness of 0.3-0.5 mm.

The experiments performed showed an increase in the reliability of the current lead assembly with welded attachment of the external electrodes to the main ones. At the same time, the voltage of the sludge cell – electrolyzer was reduced by 0.1–0.3V compared with the equipment in the case of contact of the external and main electrodes due to pressure. Experimental verification of the use of diffusion welding for the current lead assembly from the main electrode to the external one confirmed the rationality of such an attachment, since this completely preserves the mechanical characteristics of the electrodes and at the same time provides a reliable electrical contact.

Subject invention

Electrolyzer for oxygen and hydrogen filter type, containing bipolar electrodes consisting of main electrodes, made in the form of continuous metal sheets, and external electrodes attached to them, made in the form of a metal grid, gas separation diaphragms, such as asbestos, sandwiched between each a pair of adjacent remote

electrodes, nutrient channel for electrolyte and channels for removal of gases, characterized in that, in order to simplify the design and reduce the weight of the electrolyzer, it is equipped with metal rings having an external diameter equal to the external diameter of the external electrodes located respectively between each main and external electrodes; rings are provided with through slots for

communication of the cavity of the electrolyzer with the nutrient ca}: scarlet and with channels for the removal of gases.

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