BG111931A - Method for preparation of positive and negative pastes for lead-acid rechargeable cells and batteries with a low-power by modulated magnetic field - Google Patents

Abstract

The invention relates to a process for the preparation of positive and negative pastes for lead-acid storage cells and batteries by impact with low energy modulated magnetic field and will find application in their production. According to the invention, the method comprises the following operations in sequence: - Calculating the energy modulation depending on the type and quantity of the paste and depending on the type of lead-acid batteries, for which it is intended, in the working frequency range of 1-10 Hz to 120 Hz; - The creation of specific software for the generation, storage and retrieval of the estimated parameters of the modulated signal, which will be influenced during the preparation of various types of positive or negative pastes in the frequency range of 1-10 Hz to 120 Hz; - Implementation of a direct impact modulating low-energy magnetic field on the pastes in the facilities in which any relevant proceedings.

Description

Method for preparation of positive and negative pastes for lead-acid accumulator cells and batteries by action with modulated low-energy magnetic field

Field of technology

The invention relates to a method for preparing positive and negative pastes for lead-acid storage cells and batteries by exposure to a modulated low-energy magnetic field and will find application in their production.

BACKGROUND OF THE INVENTION

Lead-acid cells and batteries are one of the most common chemical sources of electricity today. The price of lead-acid batteries, the wide availability of raw materials and the high degree of automation of production processes, determines the ever-expanding areas of their application. As is known, generally lead-acid batteries are divided into three main types: starter, traction and stationary. The performance of different types of lead-acid cells and batteries is determined by many factors. One of the most important factors for the qualities of lead-acid batteries is the preparation of the positive and negative pastes for their production.

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The main chemical processes that take place in the preparation of pastes are described by Barnes and Matheson. The authors have shown in their work that the main components in the paste are lead trioxysulfate, lead oxide and metallic lead, which is contained in the starting lead oxides. / 1 /

The pastes are prepared by mixing lead oxide powder with a solution of sulfuric acid to form lead oxysulphates. Unreacted PPO, oxyhydrates and particles of unoxidized metal lead remain in the paste.

The starting materials for the preparation of the positive and negative pastes for lead-acid batteries are the following:

a) lead oxide powder;

b) H ₂ O;

c) H ₂ SO ₄ in a concentration of 1.20 - 1.40 g / cm ³ ;

d) additives:

• for the negative paste:

- expander (lignosulfonate), BaSO ₄ and carbon black;

- inhibitors;

• for the positive paste;

- polymer fibers;

In general, the processes that are performed to obtain the two main types of basic lead oxysulfates 3PbO.PbSO4.H2O and 4PbO.PbSO4 are described by the following equations:

- з.:. · .. · '· ,. ^; ,;, \ * j:

5Pb0 + H ₂ SO ₄ θ 4PbO.PbSO ₄ + H ₂ O

4 (PbO.PbSO ₄ ) + H ₂ SO ₄ + 4H ₂ O θ 5 (3PbO.PbSO _{4 .H 2} O) 2 (3PbO.PbSO _{4 .H 2} O) + H ₂ SO ₄ θ 4 (4PbO.PbSO ₄ ) + 4H ₂ O 4PbO + H ₂ SO ₄ θ 3PbO.PbSO _{4 .H 2} O tet.-РЬО θ o.-PbO

The chemical nature of the lead sulphates obtained in the preparation of the pastes is essential for the electrochemical characteristics of the lead-acid batteries they produce. These batteries, depending on the applications for which they are intended, are produced from specifically prepared positive and negative pastes with different in quantity and parameters of starting materials. Achieving a long service life, high reliability and high energy return coefficient of lead-acid batteries depends largely on the ways of preparing the pastes for the production of positive and negative electrodes in them. Therefore, depending on the conditions and the starting materials from which they are prepared, high quality pastes can be obtained. Namely, fast curing of the paste after application on the conductive grids of the electrodes, strong adhesion of the paste to the grid to ensure good electrical contact, as well as strength and porosity of the electrodes, to ensure reversibility of electrochemical processes in the cycling of lead-acid batteries. It should be noted that the way of preparation of the pastes depends on their phase composition, which is expressed in the content and · ί ·· * ···· * ·:

• ·· * * · · · · ···· * · the ratio of the qualities and quantities of the basic three and four lead oxysulphates.

When producing lead-acid batteries with high initial energy parameters, it is necessary to prepare the pastes under such conditions and with such starting materials that they contain mainly lead trioxy sulfates. When lead-acid batteries must have a stable morphology of the crystal structure of the electrodes, then it is necessary to prepare the pastes with an increased content of lead tetrooxy sulfates.

To reduce the shortcomings in the operation of lead-acid batteries and increase their electrical parameters and efficiency in operation, it is necessary to prepare high-quality positive and negative pastes for them.

Various technologies and methods are known for the preparation of positive and negative pastes for the production of lead-acid batteries, aimed at increasing the operating parameters of the lead-acid battery cells and batteries produced by them. However, all of them involve either a change in the chemical composition of the starting materials or the addition of various types of additives to the pastes in order to modify them according to the purpose of a given type of lead-acid battery.

For example, it is known that the introduction of polymer fibers in amounts up to 6.5% by weight of PPO increases the mechanical strength of the paste. / 2 / ·· ···· ······

According to another solution, it is known that the addition of small amounts of copper oxide, antimony oxide and tin oxide increases the initial capacity of lead-acid batteries. / 3 /

According to a further solution, it is proposed to add various carbon and silicon materials to the negative pastes in order to inhibit the sulphation of the negative electrodes during the operation of the lead-acid batteries. / 4 /

Methods are also known which determine another direction, in which the proposals are for the preparation of pastes for lead-acid batteries with preliminary preparation of the starting materials.

A solution is known where it is proposed that the starting lead oxides be pre-treated with a solution of hydrogen peroxide and then pastes for lead-acid batteries are prepared from this material.

According to another solution, it is proposed that the positive freshly coated plates be blown with ozone, for more efficient oxidation of non-oxidized metal lead.

According to a further solution, it is recommended that the paste be diluted with water to a suspension which provides better homogenization, after which the water is drained to a consistency allowing the paste to be applied to the slabs of the slabs. / 7 /

Technical essence of the invention

The present patent for the invention proposes a new solution for the production of positive and negative pastes with increased quality characteristics by a method of exposure to a low energy modulated magnetic field during the preparation of the positive and negative pastes in the production of various types of lead-acid batteries.

According to the invention, the method for preparing positive and negative pastes for lead-acid battery cells and batteries by the action of a modulated low-energy magnetic field is carried out by the following operations, in their sequence:

- calculation of the modulation energy depending on the type and amount of paste and depending on the type of lead-acid batteries in the operating frequency range from Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ,

- creation of specific software for generation, storage and reproduction of the calculated parameters of the modulated signal, which will be used during the preparation of different types of positive or negative pastes, in the frequency range from Γ ¹⁰ Ηζ to direct impact with modulated low energy magnetic field on the pastes in the facilities where the respective production takes place.

The method proposed in the present patent enables the efficient performance of chemical, crystallization and recrystallization processes in the production of positive and negative pastes for the production of lead-acid batteries and cells with increased energy and operational parameters.

The advantages of this method are as follows:

• is achieved with about and over 20% increase in the content and quality in the pastes of the required three or four oxysulfates, depending on the type of lead-acid batteries for which the respective pastes are intended;

• the preparation time of the positive and negative pastes is reduced and the energy used for their production is reduced by over 40%;

• the morphology and phase composition of the positive and negative pastes are improved, regardless of what additives are used for their preparation;

• conditions are created for effective chemical, crystallization and recrystallization processes in the preparation of pastes, regardless of the type of mixing equipment and machines in which the pastes are produced.

Explanation of the attached figures

The method for preparing positive and negative pastes for the production of lead-acid rechargeable batteries and cells by applying a low energy modulated magnetic field is explained with the attached fig. 1, which does not limit it.

An exemplary embodiment of the invention

According to the attached figure 1, the method for preparing positive and negative pastes for the production of lead-acid batteries and cells by applying a low energy modulated magnetic field is carried out by control module 1 with specialized software that is connected to a source of a modulated magnetic field 2 and a device 3 in which the pastes are prepared.

The purpose of the control device 1 is time-controlled to generate a modulating sinusoidal signal, with preset depending on the type and amount of paste, specific parameters in the frequency range from Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ.

The source of modulated low-frequency magnetic field 2, as well as the device 3, depend on the type of prepared pastes.

According to the proposed method, the first step is to calculate the modulation energy depending on the type and amount of paste, in the frequency range from Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ.

After calculating the modulation energy, a specific software is created for generating, storing and reproducing the calculated parameters of the modulated signal, in the frequency range from Γ ¹⁰ Ηζ to l ²⁰ Hz. This signal acts on the respective paste, which is prepared in the paste production plant.

This is followed by direct action with a modulated low-energy magnetic field on the various types of positive or negative pastes currently being prepared.

The proposed method for the preparation of positive and negative pastes for lead-acid battery cells and batteries by exposure to a modulated low-energy magnetic field is illustrated by the following examples, which do not limit or exhaust it:

Example 1.

The preparation of the paste for positive electrodes was performed according to the following recipe;

О ~ 1000 gr. - РЬО, 76% degree of oxidation;

- 1 Юмл. - distilled H2O;

- 75ml - H2SO4 with a density of 1.40 g / cm ³ ;

A mixer with a plastic cylindrical vessel and mechanical stirrers made of stainless steel is used. The source of the modulated magnetic field is fixed on the side of the vessel. First, the lead oxide powder is placed in the vessel and '......

io.:. · .. · ** ^: * ”i control device that activates the source of the modulated magnetic field. Distilled water was added and the mixture was stirred for three minutes. Further, the sulfuric acid solution was added in portions of 20 ml. and at the end of the twentieth minute from the beginning of the stirring, the last ZOMl are added. sulfuric acid solution. Stirring of the paste from the beginning of the addition of the sulfuric acid solution is continued for a total of 30 minutes, making sure that the temperature of the paste does not exceed 40 ° C. During this whole time of preparation of the positive paste, an effect with a modulated magnetic field in the frequency range Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ was applied.

Example 2.

Preparation of paste for negative electrodes.

The negative paste contains an additional amount of carbon material in order to produce negative electrodes with increased electrical conductivity and with the possibility of reduced sulfation of the negative electrodes during cycling of lead-acid batteries. This paste is prepared according to the following recipe;

- 1000 g - РЬО, 76% degree of oxidation;

- 4g. - BaSO ₄ ;

- 2g. - Vanisperse

- 20g. - carbon material with TDA-AC index, manufactured by Cabot-USA;

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- 125ml. - distilled H2O;

- 76ml. - H2SO4 with a density of 1.40 g / cm;

A mixer with a plastic cylindrical vessel and mechanical stirrers made of stainless steel is used. Also, as in Example 1, the source of the modulated magnet is mounted on the side of the vessel. When preparing the paste for the negative electrodes of the lead-acid batteries, first the lead oxide powder is placed in the mixer vessel and a source of modulated magnetic Cr field is included. BaSO4, Vanisperse and carbon material TDA-AC were then added and stirring of the dry mixture was switched on for two minutes. After the mixture was stirred to dryness, the required amount of distilled water was added and stirring was continued for another three minutes. Further, the sulfuric acid solution was added in portions of 20 ml. and at the end of the twentieth minute from the beginning of the stirring, the last 35 ml are added. sulfuric acid solution. Stirring of the paste from the beginning of the addition of the sulfuric acid solution lasted a total of 30 minutes, and the temperature of the prepared negative paste was constantly monitored not to exceed 40 ° C. Throughout the preparation of this type of negative paste, it is exposed to a modulated magnetic field in the frequency range Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ.

Literature:

1. Barnes SA, Mathieson RT. - Batteries, vol. 2, Perg. Press, 1965, p. 41- 45.

2. US 4323470 A

3. US 5352549 A

4. US 20120115031

5. US 4909955 A

6. US 4656706 A

7. US 5290359.:. · .. · ’'·,. ·,. ·', *, ·, ** ·

Claims (1)

Patent claims 1. A method of preparing positive and negative pastes for lead-acid battery cells and batteries by modulating a low-energy magnetic field, characterized in that it comprises the following operations, in their sequence: - calculation of the modulation energy depending on the type and quantity of the paste, and depending on the type of lead-acid batteries for which it is intended, in the operating frequency range from G ¹⁰ Hz to l ²⁰ Hz; - creation of specific software for generation, storage and reproduction of the calculated parameters of the modulated signal, which will be used during the preparation of different types of positive or negative pastes, in the frequency range from Γ ¹⁰ Ηζ to 1 ²⁰ Ηζ; - direct impact with a modulated low-energy magnetic field on the pastes in the facilities where the respective production is carried out.