UA56731A - Method for improving the technical characteristics of a lead-acid accumulator - Google Patents

Abstract

The proposed method for improving the technical characteristics of a lead-acid accumulator is distinctive by adding phosphoric acid to the lead powder that is used for forming the positive plate of the accumulator. The lead powder is a mix of lead I powder and lead II powder. The amount of phosphoric acid is 2 … 4 % of the weight of the lead powder.

Description

Description of the invention

The invention relates to the electrical industry, namely to the production of lead-acid 2 storage batteries.

The main disadvantages of starter lead-acid batteries are low energy capacity and short service life, which in most cases are determined by the properties of the positive electrodes. Such properties include: splashing of the positive active mass, falling out of the active mass due to weak mechanical strength or due to poor adhesion to the current leads, fast passivation at deep discharges 70 due to the formation of a dielectric layer of lead sulfate between the current leads and the active mass.

An effective solution to these problems is possible by using activating additives in the paste of the positive electrodes or in the battery electrolyte. Such additives should, firstly, significantly increase the energy capacity of batteries by increasing the specific surface of the positive electrodes. Secondly, to add the necessary mechanical strength to the active mass of positive electrodes and significantly reduce its sputtering. Thirdly, 72 such additives should ensure good adhesion of the active mass to the current drain and prevent the formation of a dielectric layer between them. Currently, the literature has a large list of proposed activating additives, which have different degrees of effectiveness and differ in the mechanism of action. Unfortunately, in most cases, these additives improve some electrode characteristics at the expense of others, and only some of them find real practical use.

As already mentioned, activating additives may differ in the mechanism of action on the active mass of electrodes. For example, the effect of introducing spatially hindered phenols into the electrode paste is explained by their tendency to form free radicals and other charged particles, which makes it difficult to form a dielectric layer of lead sulfate. Phosphoric acid NuzRO), added to the electrolyte of lead-acid batteries, not only hinders the formation of a dielectric layer of lead sulfate between the current drain and the positive active mass, but also increases the electrical conductivity of the active mass due to the formation of a solid "RB(HRO,) phase" localized in the region contact jumpers of small cross-section between the particles of the active mass | adayiope oi rpozrrogis asii o (Pe ozzshirpygis asiai eiIesigoiuie./ Niiiteiipe Sh., Movzv E., MUipveI A./ Rgos. pi Sopi. Ieai-Asiy

Vatsegieev: I AVAT89, Magpa, Mau 29-Udype 2, 1989, 9). Romzheg BZotsgsevs, 1990, 30, Mo1-4, R.99-105). At the same time, the addition of phosphoric acid to the electrolyte does not impair the characteristics of the battery's negative electrodes. co

The addition of phosphoric acid to the paste of positive electrodes leads to an increase in the energy capacity of positive electrodes due to an increase in their specific surface area. Such an increase in the specific surface area occurs due to the adsorption of phosphate ions on RBO 5 particles of positive active mass, which leads to "(o change in their morphology | M.A. Dasoyan. Chemical sources of current. Reference manual. Ed. 2-oi, L ., 1969, P.1241.

According to modern concepts, the positive active mass of pasted electrodes is a porous body consisting of smooth rounded particles of O0-RBO" and dendritic particles of D-RBO" with a branched surface. At the same time, the o-RBO" particles are mechanically stronger and create a frame of active mass that is preserved during operation. Particles of D-RBO" are less strong, prone to splashing, but they are more energy-intensive and determine the electrical properties of the active mass. The most important characteristics of the active mass: specific surface area, -v porosity, mechanical strength, as well as phase composition (amount of o- and D-RBO") strongly depend on the characteristics of the lead powder used to prepare the paste: dispersion (primarily - medium size: with" particles), oxidation (mass fraction of lead oxide RBO) and some others. The average particle size and oxidation of lead powders are correlated, although not uniquely related. The powder obtained at a specific production facility, depending on the conditions of production, with a larger particle size has lower oxidation and vice versa. sl The average particle size can be determined by different methods, which, due to the special specificity of dispersed media, give different results for the same powder. Therefore, the size of the particles must be specified together with

Me, by the method of its definition. In factory laboratories, it is more convenient to determine the average particle size of lead powder using sedimentometric analysis (sedimentation method). Manufacturers of 5p lead-acid storage batteries, depending on the problems to be solved, use powders with specific characteristics set within narrow limits. A certain change of these characteristics in one or the other direction of the kch allows either to increase the energy capacity of the active mass, but to shorten the service life of the positive electrodes, or vice versa. Currently, lead powder with an average particle size of 2.8-3.2 μm (the size is determined by sedimentometric analysis) and an oxidation number of 70-7595 is most often used for starter batteries. This makes it possible to optimally combine the sufficient energy capacity of the positive electrodes and the necessary period of their service. » A known method of improving the technical characteristics of lead-acid batteries (Patent of Russia

Мо2166815, МПК" НОМ 10/12, 10/26), in which a specified mixture of spatially hindered phenols is introduced into the paste prepared from lead powder and used for forming electrodes. This allows you to increase the service life of batteries by reducing self-discharge, preventing the formation of a dielectric layer of lead sulfate, as well as the recovery of batteries after sulfation. The disadvantage of this method is that it does not reduce the splashing of the positive active mass, does not increase its strength, that is, it does not eliminate other important reasons for shortening the service life. In addition, this method is practically does not increase the energy capacity of lead-acid batteries. 65 The closest technical solution, chosen as a prototype, is a method of improving the technical characteristics of lead-acid batteries |M.A. Dasoyan. Chemical sources of current. Reference manual. in 2nd edition, L. ,

1969, 588 p. |, in which phosphoric acid НзРО is introduced into the paste prepared from lead powder and used to form positive electrodes, in the amount of 0.2-2 wt.9o from the weight of the paste.

This method, by increasing the specific surface of the positive electrodes, allows you to increase the energy capacity of lead-acid batteries, especially at the beginning of their service life. However, it has practically no effect on the length of the service life. Moreover, the addition of phosphoric acid to the paste, changing the morphology of the particles of the positive active mass, leads to an increase in its porosity, and at a concentration of more than 295, it begins to negatively affect the service life of batteries.

The basis of the proposed invention is the task of developing a method that allows improving the technical characteristics of lead-acid batteries, increasing their energy capacity and extending their service life by changing the properties of the powder used to prepare the paste and introducing phosphoric acid positive electrodes into the paste.

The task is solved due to the fact that in the proposed method of improving the technical characteristics of lead-acid batteries, in which phosphoric acid НзРО /, according to the invention, lead powder is introduced into the paste prepared from lead powder and 7/5 used for the formation of positive electrodes obtained by mixing two initial lead powders I and II in the mass ratio (0.3-0.7):(0.7-0.3) with the average particle size determined by sedimentometric analysis: | - 2.6-2.8μm, I - 3.2-34μm and oxidation: | - 75-8590, I - 60-7095, phosphoric acid is introduced into the paste in the amount of 2-4 mass.9o from the mass of the paste.

The effect of improving the technical characteristics of lead-acid batteries is explained, firstly, by the increase in the mechanical strength of the positive active mass and the decrease in its tendency to splash due to the optimal ratio of the sizes of the powder particles, which, despite the following technological operations and chemical transformations, significantly affect the the structure of the active mass (phenomenon of metasomatism), as well as due to the successfully selected amounts of low and highly oxidized particles, which contributes to the optimal flow of chemical reactions in the pastes and the formation of a stable framework of the active mass. Secondly, the improvement of technical characteristics is achieved due to the increased content of phosphoric acid in the paste, which increases the porosity and specific surface of the positive active mass, improves its electrical conductivity in the area of contact bridges between particles of the active mass. Thirdly, phosphoric acid, as already noted, makes it difficult to form a dielectric layer of lead sulfate between the drain and the positive active mass. "- zo With the selected mass ratio (0.3-0.7):(0.7-0.3) of the initial lead powders, the maximum effect is achieved, while when this ratio is violated, that is, when the mass fraction of one of the powders is reduced, less and 0.3 (less than 30905) and the corresponding increase in the share of the other more than 0.7 (more than 7095), the effect of mixing powders h- is sharply reduced and, in fact, we get the properties given by only one of the original powders, which is contained in the majority. ise)

The value of the average particle size and degree of oxidation of the two starting powders, as well as the content of phosphoric acid, were selected empirically. The effect of mixing powders is greatly reduced when their characteristics converge, that is, when the particle size of powder I increases by more than 2.8 μm, its oxidation decreases by less than 7596, and when the particle size of powder I decreases by less than 3.2 μm, and its oxidation increases by more than 7095. case, as well as in the case of distance of the characteristics of the original powders from each other and from the specified limits, "the same negative consequences occur, caused by the high content of phosphoric acid in the paste, namely - p.s. shortening the service life of batteries. Strengthening of the active mass due to mixing of powders with specified parameters allows using a rather high, more than 295, content of phosphoric acid in the paste without damage;" for the service life of the electrodes. But we have the opportunity to use all the advantages of such a high content of phosphoric acid - increased energy capacity of positive electrodes, etc. When phosphoric acid is added to the paste, there is an excessive increase in the porosity of the positive active mass and a reduction in the service life of the electrodes. When adding less than 2905 phosphoric acid, a sufficient increase in the energy capacity of the positive electrodes is not achieved.

Me. If all the above-mentioned parameters are observed, a high energy capacity and an increased service life of the positive electrodes are achieved in the absence of a negative effect on the negative electrodes, which accordingly

It is reflected in the characteristics of lead-acid batteries. o According to the information available to the authors, the essential features that are proposed and characterize the essence of the invention are not known from the state of the art.

The proposed technical solution can be used at factories for the production of lead-acid storage batteries. 5B The proposed method of improving the technical characteristics of batteries is carried out as follows.

At a lead powder production plant, a mill or a Barton liquid dispersion plant,

P" alternately with different technological regimes, two lead powders are obtained with the parameters specified in the formula of the invention. If the manufacturer owns two powder production units of the same type, it is possible to simultaneously produce two powders, each on its own unit set to the appropriate mode. The average particle size of the powder is controlled by sedimentometric analysis. Oxidation - with the help of a standard sample for the content of RBO.

The suspension for the paste is made with the help of mass dispensers, in compliance with the mass ratio of the initial lead powders specified in the formula of the invention. To obtain the paste, dry components are first fed into the mixer: initial lead powders and binding additives (for example, polypropylene pile), 65 then distilled or demineralized water is added and mixing is done for no more than Ххв. After that, the liquid components are served: a solution of sulfuric acid with a density of 1.40 g/cm" and a solution of phosphoric acid НзРОд of the same density, and phosphoric acid is added in the amount according to the formula of the invention. Mixing is done for no more than ЗОхв. Otherwise, the quantitative formulation of the positive paste and the method of obtaining it are established in the technological documentation.

The quantitative formulation and the method of obtaining the negative paste remain unchanged.

The claimed method has been tested in factory conditions.

Example 1.

Accumulator batteries 6ST-60OAZ (nominal voltage SHO dom-12V; nominal capacity Sum-bOA h; starter current I-280A) in the amount of Ush., the positive paste in which is made from one powder with an average particle size of 3,150.05μm, oxidation 722295 , without the addition of phosphoric acid, showed on the exams for

GOST 959 in the first cycles, the capacity is on average 60.5A h, the duration of the starter discharge in the cold is on average 155s. From the specified sample, 6 batteries were subjected to durability tests and showed the number of weekly cycles of production - 6. The technical inspection of the electrode blocks extracted from the batteries showed partial softening and sprinkling of the positive active mass, the fall of which from the current outlets amounted to approximately 18-2095 /5 of the electrode area. Other Z batteries passed the vibration resistance test according to GOST 959 five times in a row, practically without changing their electrical characteristics.

Example 2.

Accumulator batteries 6ST-6OAZ (OO ohm-12V; Suom-bOA h; I-280A) in the amount of Ush., the positive paste in which is made from the same powder as in example 1, with the addition of 2.995 phosphoric acid to the paste, shown on tests according to GOST 959 in the first cycles, the capacity is on average 67A h, the duration of the starter discharge in the cold is on average 178s. From the specified sample, B batteries were tested for durability and showed the number of weekly cycles of earnings - 5.5 (3 batteries showed 5 cycles, other Z batteries - 6 cycles). A technical inspection of the electrode blocks pulled out from the batteries showed partial softening and sprinkling of the positive active mass, the fall of which from the current outlets was approximately 22-2595 of the area of the electrodes. Other Z batteries passed g5 tests for vibration resistance according to GOST 959 five times in a row, slightly deteriorating their electrical characteristics - the duration of the starter discharge decreased by 5-7905. "

Example 3.

Rechargeable batteries 6ST-60AZ (O ohm-128V; Som OA h; I-280A) in the amount of 9 pcs., the positive paste in which is made from a mixture of two powders | and Y in a mass ratio of 0.5:0.5 (5090:50905), with an average size of -/-chee of particles: I - 2,750.05 μm, I - C, 3 x 0.05 μm and oxidation: | - 80zh295, I - 65290, with the addition of phosphoric acid 2.995 to the paste, showed in tests according to GOST 959 in the first cycles a capacity of 66.5 BA h on average, the duration of the starter discharge in the cold on average 181s. From the specified sample, 6 rch batteries were tested for durability and showed the number of weekly cycles of earnings - 8.3 (4 batteries showed 8 cycles, 2 batteries - 9 cycles). A technical inspection of the electrode blocks pulled out from the batteries showed partial softening and sprinkling of the positive active mass, the fall of which from the current outlets amounted to approximately 15-1895 of the area of the electrodes. Other Z batteries passed the vibration resistance test according to GOST 959 five times in a row, without deteriorating their electrical characteristics.

Thus, the obtained data indicate that when using a mixture of two lead powders of the claimed characteristics for the production of a positive paste, as well as when adding phosphoric acid to this paste

In quantity, according to the formula of the invention, the specific surface of the positive electrodes and 8s strength of the positive active mass simultaneously increase, and the propensity of the active mass to splash decreases. This leads to a significant increase in energy capacity and battery life. and?

Claims (1)

The formula of the invention A method of improving the technical characteristics of lead-acid batteries, in which phosphoric acid (HzRO) is added to the paste, which is prepared from lead powder and used for the formation of positive electrodes, which differs in that the lead powder is obtained by mixing two 5p starting lead powders | and I in the mass ratio (0.3-0.7) : (0.7-0.3) with the average size and particles determined by sedimentometric analysis: | - 2.6-2.8 μm, HER - 3.2-3.4 μm and oxidation: - MI - 75-85 9b, II - 60-70 95, phosphoric acid is introduced into the paste in the amount of 2-4 mass .9o from the mass of the paste. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuits", 2003, M 5, 15.05.2003. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 60 b5