CS271768B1 - Admixture into both lead and alkaline accumulators - Google Patents

Abstract

The additive is formed by the combination of compounds, from which one contains polysaccharides and their derivates with the molecular weight of 10 <3> to 10 <6> and the second contains peroxide bleaches. The additive is to the advantage formed by carboxymethylcellulose and hydrogen peroxide. It can be used both for lead and alkaline accumulators.

Description

(57)

Additive for lead and alkaline batteries

The additive consists of a combination of compounds, one of which is a polysaccharide and its derivatives having a molecular weight of 10 to 106, and the other a peroxide compound. The additive is preferably composed of carboxymethylcellulose and hydrogen peroxide. It can be used for both lead and alkaline batteries.

271 768 ^^ ( ¹¹ ), (13) (51) Int. C1.5

H Ol M 10/08

H 01 M 10/26

H01M 10/42

CS 271 768 Bl

The invention relates to an additive for both lead and alkaline accumulators based on peroxide compounds.

Existing known methods for eliminating irreversible changes on the surface of lead-acid accumulator plates are by recharging or discharging them. For alkaline cells that have been degraded by chemical processes during operation or storage, electrolyte irrigation and electrolyte exchange are also used for regeneration in addition to repeated charging and discharging.

The new solutions is from MS. No. 260,591, there is known a method of regenerating mechanically intact lead and alkaline accumulator cells in which an aqueous solution of hydrogen peroxide is added in portions to the original electrolyte. When regenerating accumulators, both lead and alkaline, with a solution of hydrogen peroxide or with peroxide and compounds, it seems to be a drawback that the effect of peroxide is dependent on the choice of regeneration procedure and the type of irreversible sulfation of the lead cells. This concerns mainly cordless promoter & _T that are improperly stored or stored after the previous operation. ·

The aforementioned drawback is eliminated by the additive to the accumulators of both lead and alkaline, based on peroxide compounds, according to the invention. Its essence lies in the fact that at 1 to

10 ⁵ parts by weight of peroxide compounds, calculated as 100% hydrogen peroxide, of 36 is 1 part by weight of polysaoharides or derivatives thereof with a molecular weight of 10 to 10.

According to a preferred embodiment, the additive may comprise hydrogen peroxide and carboxymethylcellulose.

This additive is characterized by a controllable effect of peroxidic compounds.

A further advantage is an increase in the effect of regenerating lead-acid accumulators by this additive compared to regeneration performed by peroxide compounds only. The additive according to the invention can be used to regenerate both alkaline and lead-acid accumulators.

The additive according to the invention is described in more detail below in several application examples.

Example 1

With a 5-year-old alkaline accumulator battery type 5 NKT 160 A.h, a capacity of 50% of the nominal capacity was found. Its capacity decreased due to an increase in sludge and deposits between the electrodes. The battery was regenerated by preparing an additive consisting of 400 ml of 30% hydrogen peroxide and 2 g carboxymethylcellulose. After mixing, with peroxide, 34 ml of the additive solution was added to each 1.7-liter battery cell. The second dose was added after 15 minutes. After another 30 minutes, the electrolyte solution was discarded, the cells filled with new electrolyte. When fully charged, the rechargeable battery has a cell capacity of 85 to 95% of its rated capacity.

Example 2

Lead-acid battery 12 Μ 1, 37 A.h, consisting of 6 cells with a capacity of 0.6 liters of electrolyte in each cell, was decommissioned after 3 years of operation, when it was operated as a backup source. It was found to have a capacity of 30% of its capacity novité. The battery was regenerated by using an additive composed of a 1% carboxymethylcellulose solution and 30% hydrogen peroxide, first adding 5 ml of a 1% carboxymethylcellulose solution and then 10 ml of 30% hydrogen peroxide to each cell. After about 15 minutes, an additional 8 ml of 30% hydrogen peroxide was added to the battery, after which the battery was connected to a charging source and, after charging, had a capacity of 80% of its nominal capacity. During charging after regeneration, a white turbidity of the solution was observed, characterizing the hard irreversible electrode sulphation. After removal of this irreversible sulfation, the rechargeable battery was also usable.

CS 271 768 Bl

Example 3

The lead-acid accumulator battery type 3 OE 2, 3 years old, has been reduced to 50% due to abnormal operation and age. It was regenerated by using an additive formed by mixing 10 ml of 3% carboxymethylcellulose and 1 liter of 30% hydrogen peroxide. 20 ml of the additive according to the invention were then added to each battery cell at 15 minute intervals. When fully charged, the rechargeable battery had a capacity of 90% of its nominal capacity.

Claims (2)

and BEFORE YOURSELF The first additive battery lead and alkaline, peroxidickýoh based compounds, characterized in that 1 to 10 parts by weight of ⁵ peroxidickýoh compounds, calculated as 100% hydrogen peroxide comprises one part by weight of polysaccharides or 6 derivá3 here with a molecular weight of 10 to 10. 2. An additive according to claim 1, characterized in that it comprises hydrogen peroxide and carboxymethylcellulose.