SU3294A1 - Sodium chloride electric battery - Google Patents

Description

In the proposed battery, c. As electrode substances, the elements of galloyl and | alkali are applied, on the one hand, and alkaline, the metal, on the other, namely, chlorine and sodium, as having the greatest potential difference, and with usp (), the chlorine natrium battery has been replaced. Yes, sodium ions on the mercury surface, respectively, the formation of sodium amalgam in the apparatus, hermetically sealed, allowing a pressure of up to 7 atmospheres, so that chlorine is obtained in liquid form directly in the battery without the use of a co-compressor.

In the accompanying schematic drawing, an exemplary embodiment of an electrical battery of sodium chloride type is shown, in FIG. 1 shows, in part, an external view and part, a longitudinal section of the battery; and FIG. 2 is a cross section of the battery.

The apparatus consists of a riveted iron tank lined with

inside solid rubber m. The tank is filled with a saturated solution of chloride (1G, 1 soda (. Possible with not more than 1m amount of undissolved salt). Ano. Yes. They are porous electrodes a, kaimodo.m is cnoii. Charging apparatus, like KastnepOBCKO .iy loro-pelotechno) .. slowly pumped by the eccentric 20 (Fig. 1). In this case, mercury passes to the right and to the left under the amalgam pond 7 (Fig. 1, 2). In the latter, the amalgam floats to the top of n along tubes 16 and 73, with open yen 111. 14, nepexo; iiri in pain 72, containing hydrogen or some kind of weekly gas at atmospheric pressure. Due to the fact that the amalgam enters the bomb at a pressure of about 7 atmospheres, the gas is compressed up to the same pressure, giving way to the amalgam. At this time, liquid chlorine is released at the anode. So that it does not fall on the surface of mercury below the anode, the anoles are placed in insulating grooves 18,

open only from above. Hakil way acts only the upper surface of the anodes. From here, liquid chlorine can only get into the inner 1: 0 the anode and through it go into the tube 7, and then, through the dryer 6, the tube J, with the open 4 - into the bomb 2.

In case the bomb 2 has a protective layer of hard rubber or enamel inside, a dryer b for liquid chlorine WHOM is unnecessary. From the unit of volume of solid sodium chloride (sp. V. 2.17), 0.875 e is obtained; 1 unit of volume of liquid chlorine (–E. v. 1.5) and 0.875 units of the volume of metallic sodium (sp. C. 0.971). Thus, chlorine and amalgam are squeezed out of the apparatus already due to an increase in the volume of the resulting products, as compared with the initial ones. The rupture of the apparatus could not occur due to the fact that the bomb with chlorine, while it is not filled, is, as it were, regulating the pressure of 1 Om., Keeping the latter equal to the liquefaction pressure of chlorine.

The safety valve may exist in particular (not shown). For a better flow of liquid chlorine, inside the anode to the exit end it is useful to arrange an anode or a hole in it, slightly inclined to the right.

Electrolysis (charging) under elevated pressure requires slightly more energy consumption than electrolysis at atmospheric pressure. However, this difference is an insignificant amount (hundredths of the salt). Therefore, the liquefaction of chlorine occurs here, almost without the cost of work, in contrast to conventional electrolysis, which requires sophisticated tools and significant energy consumption.

When the battery is discharged without rocking the apparatus, the valve 75 of the bomb / 2 is opened, due to the amalgam, under pressure of the gas passes through the return tube (not visible in the drawing), and through the holes 79 to the bottom of the apparatus, on both sides of the sump 7 Chlorine from bomb 2 is supplied to the anodes. At the same time, the device can operate at low pressure, giving an electromotive force from 3 to 4 volts. By entering the battery the electrode substances are converted to sodium chloride with a decrease in volume, but the total volume of electrolyte increases. Therefore, its excess is continuously discharged through a pipe into the storage vessel for electrolytes (not shown in the drawing) and water is introduced into the battery as necessary. The introduction of water or electrolyte into aiKKyMy.iiKTOp is also possible when it is under pressure: to do this, it is enough to place the solution in a large place and transfer a small amount of liquid chlorine from a chlorine bomb to it; the thief will immediately come under pressure. 6.5-7 atm. and it can be all boosted from bombs: with the gradual transformation of the amount of liquid chlorine introduced into it into a gas at the same pressure.

In the case when electrical energy must be stored for a long time, and it is necessary to convert a) Malgam to metallic sodium, in order to use the mercury that is associated with the amalgam, mercury can be distilled off with the use of mercury vapor.

Metallic sodium is easily pushed into the holes and therefore can be introduced into an accumulator as described above for the introduction of amalgam pressure.h of hydrogen. Hydrogen under any gas can be obtained by placing some sodium and water in a bomb and heating it slightly. Of course, other ways are possible.

Before cleaning, repairing, loading new electrolyte, etc., to get rid of traces of chlorine, the battery is put on discharge when bombs 2 and 72 are off, and at the end it is closed for a short time, then all chlorine and sodium will be consumed and the battery can open without risk of poisoning the air.

The advent of electrical wires is advisable to make in such a way that the negative pole (mercury) is connected to the body, and the positive electrode is isolated.

sh

It is also possible to have both poles isolated from the body. But the connection of the case with the positive pole is undesirable, since, in case of accidental cracks in the inner insulating layer, the walls of the boiler can be separated by chlorine.

PREL M ET AND L T E NT L.

1. Electro chlorine sodium type, characterized by the use of sodium amalgam and liquid or gaseous chlorine as electrode substances and, as an electrolyte, sodium chloride solution placed in a closed tank equipped with replaceable tanks for collecting into a stock of electrode substances obtained when charging the battery.

2. The form of execution described in paragraph 1 of the battery, characterized with the use of iron, lined inside with solid rubber and filled with a saturated solution

chlorine-o sodium tank .4, in which are located porous tubes a (eg, carbon), placed in insulating grooves / 5 and serving as a positive electrode of a battery, the negative electrode of which is formed by a layer of mercury Id, is located at the bottom of tank A with a sump /, collecting amalgam during battery charging, tubes a and 7 being connected to chlorine bomb 2 by tubes 7 and 3, while sump 7 is connected to an amalgam bomb 76, 73 closed by valve 74, which is a bomb 72 is stocked with ypuokny.m valve 75 serving to supply the reverse amalgam tube through osherstie / 9 to pezep yan A.

3.B characterized in paragraph 13 p. 1 and 2 battery use eccentric 20 for the purpose of slow oscillation of the apparatus during charging.

4. It is applied - described in p. 1, 2, 3 battery pack as an electrolyzer for obtaining alkalis 1 chlorine.