SU35912A1 - Water-filled galvanic cell type Leklanche - Google Patents

Description

As is known, one of the significant drawbacks of all galvanic cells is their self-discharge, i.e. the loss of capacity during storage in a charged form due to chemical processes inside the element during those periods when it does not give energy to an external circuit, which the processes are accompanied by the consumption of the components of the element.

One of the main processes here is the dissolution of the metal of the negative electrode (usually zinc), accompanied by its corrosive effect, which is penetrating to corrosion.

It is well known that the corrosion of any metal in any solvent is reduced if this solvent contains ions of this soluble metal.

This circumstance is one of the reasons that a certain amount of zinc chloride (ZnCIa) is added to the electrolyte (mass) of Dekanshche type elements, which contributes significantly to the reduction of zinc corrosion in ammonium chloride solution (ISHiCI), which is electrolyte in these elements .

Such an additive, however, cannot be produced in water-filled Leklanche type cells produced from plants in an uncharged state and

(369)

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intended for long storage in warehouses.

The impossibility of this additive is due to the fact that zinc chloride is a very hygroscopic substance and sucks moisture from the air, resulting in self-charging of elements, i.e., loss of long-term storage capacity.

The absence of zinc salts in the electrolyte of these elements (their electrolyte consists only of ammonium chloride, NHjtO, which is embedded in the element in the form of manufacture and dissolves in water when the element is charged), ca. This leads to the fact that their safety in a charged form, due to increased corrosion of zinc, is much lower than that of similar dry cells, in which the zinc electrode is protected from corrosion by the presence of zinc chloride in the electrolyte.

The addition of water-filled elements of dry zinc salts to the dry ammonia, which are not as hygroscopic as zinc chloride, for example, zinc sulfate (ZnSO4), significantly reduces the corrosion of the zinc electrode and increases the safety of the elements.

However, there is another disadvantage here, namely, experience shows that between ammonium chloride and zinc sulfate, in the solid phase, passes

an exchange decomposition reaction, as a result of which these substances are partially converted into ammonium sulphate and zinc chloride, and the latter again begins to suck moisture from the air, and the element, when stored uncharged, is self-charged.

In the proposed galvanic cell of the Leclansche type, to avoid this self-exploitation and simultaneously protect the zinc electrode of water-filled cells from excessive corrosion, by adding zinc salts to the electrolyte, the latter is introduced into the cell so that they do not come into contact with ammonium chloride, for example, non-hygroscopic input zinc salt in the agglomerate mass during its manufacture, or by placing it on the bottom of the element, and ammonium chloride from the top, or entering zinc in gel capsules, wafers, etc., disintegrating from ystvi moisture membranes, and other similar methods.

Such a change in water-filled elements will significantly increase their safety (service life) in an charged form, without fear of the possibility of their safety being deteriorated in an uncharged state.

The subject matter of the invention.

A water filled galvanic element of the Leklanche type, in which ammonium chloride and non-hygroscopic zinc salt, for example, zinc sulfate, are used in the manufacture, in order to prevent the salts from interacting in solid form, the non-hygroscopic zinc salt is placed inside the cell separately from ammonium chloride or cover with moisture that disintegrates from the effect of moisture.