SU752566A1 - Air-magnesium cell - Google Patents

Description

The invention relates to the field of chemical current sources used both in marine (buoys) and ground (backup current sources, batteries for powering various equipment) conditions.

Technical solutions are known, according to which electrolyte 1 is circulated to protect cathodes from precipitation of magnesium hydroxide, porous gaskets 2 are used, or dehydrating substances 3 are introduced into electrolyte.

However, these technical solutions are complex.

Known air-magnesium element closest to the proposed, containing a gas diffusion cathode, an anode enclosed in a separator, current leads and the housing.

However, in such an element, as the magnesium hydroxide is formed in the interelectrode space, the resistance of the electrolyte increases and, consequently, the capacity of the element decreases.

The purpose of the invention is to reduce the resistance and increase the capacity of the air-magnesium element.

The goal is achieved by the fact that the anode is made in the form of a perforated corrugated plate with a corrugation angle of 10-80 °.

FIG. 1 shows the proposed element, the cut; in fig. 2 - anode, front and side view.

The magnesium-air element consists of a housing 1, which is a positive 5 current conductor, the two sides of the housing are gas diffusion electrodes 2. Perforated corrugated magnesium anodes 3 with a corrugation angle of 10-80, a shoulder height of 0.5-5 mm and a surface

10 corrugations 20-60% of the entire surface of the anode are placed in a plastic bag 4 having openings for filling the electrolyte, and pressed by the ridges of the corrugation to the gas diffusion electrodes. The element is filled with electrolyte with a 5-10% NaCl solution and is closed with a lid-collector 6, which has contact with magnesium anodes. To release the hydrogen in the cap there is a plug 7 of porous fluoroplastic. For

20, the sealing of the element and the insulation of the cover from the casing uses a rubber gasket-insulator 8.

During the operation of such an element, the oxygen of the air diffuses in the pores of the gas-diffusion element to the active centers and, when restored to OH– ions, ensures the operation of the positive electrode. During the operation of the element, a large amount of magnesium hydroxide is formed, which

30 is picked up when released

hydrogen is carried out through the perforations in the anodes into the free non-working space between the two anodes and settles there. Thus, magnesium hydroxide does not increase the internal resistance of the element, and as a result, the capacity of such an element increases by 15–20%, and the element has stable discharge characteristics (the voltage of such an element remains almost unchanged during operation).

Claims (4)

1. The patent of England No. 1249308, cl. H 1B, 1971. 2. US patent number 3623914, cl. 136-120, 1971. 3. US patent number 3616335, cl. 204-129, 1971. 4. US patent No. 3645694, cl. 136-86, 1969. ipii YES YES l D A D A D D IG