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Lithium manganate storage battery special for hybrid vehicles and preparation method thereof

A technology of hybrid electric vehicles and lithium manganese oxide, which is applied in the direction of battery electrodes, circuits, electrical components, etc., can solve the problems of rapid battery dehydration, inability to produce large-capacity and high-power power batteries, and sensitive batteries to overcharge, etc., to achieve The effect of reducing equipment purchase cost and power consumption cost, powerful BMS battery management system, and stable battery structure

Inactive Publication Date: 2016-08-10
深圳市索阳新能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As mentioned above, lithium-ion batteries have the best application prospects among the various existing power supply series products, but the performance of lithium-ion batteries varies widely due to the different electrode material systems used.
Lithium cobalt oxide, a relatively mature positive electrode material, is only used as a positive electrode material for conventional small and medium-capacity batteries due to its poor safety. Basically, it does not have the possibility of making large-capacity and high-power power batteries.
[0005] The existing storage battery has the following disadvantages: 1. The existing storage battery has short service life, high maintenance cost, and requires frequent replacement of the storage battery
In case of permanent battery damage due to battery maintenance errors, special equipment and tools are required for maintenance; 2. The existing commonly used batteries are polluted, highly corrosive to the environment, low in capacity density, and poor in energy storage effect; 3. Some batteries are sensitive to overcharging
Overcharging will cause the gas generation of the battery to be much greater than the amount of compounding
As a result, a large amount of gas is discharged, and the battery loses water very quickly, which affects the service life of the battery; 4, the battery charge and discharge rate in the existing electric vehicle is low, and the electrical property is unstable; 5, the existing battery has a small operating environment temperature range, Poor high and low temperature resistance, small battery capacity, etc.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] The special-purpose lithium manganate storage battery of the hybrid electric vehicle power supply of the present embodiment adopts following steps to make:

[0051] 1) First, the positive active material (mass ratio of layered lithium manganese oxide to lithium cobaltate is 2:1), carbon nanofibers accounting for 10% of the positive active material and 5% of the positive active material dissolved in N-formazan Pyrrolidone-based polyvinylidene fluoride binder, when the vacuum degree is not higher than 0.08MPa, the temperature is at 80°C, at a stirring speed of 1500 rpm, stir for 8 hours, take out the mixed slurry and add zirconium balls with a diameter of 12mm, and stir at 1000r / min speed, ball milling for 6 hours, the mass ratio of the mixed slurry to the zirconium balls was 1:2, the zirconium balls were separated from the mixed slurry, and passed through a 100-mesh sieve to obtain the positive electrode slurry; the ambient temperature in the mixing and ball milling proc...

Embodiment 2

[0058] The special-purpose lithium manganate storage battery of the hybrid electric vehicle power supply of the present embodiment adopts following steps to make:

[0059] 1) First, the positive electrode active material (mass ratio of layered lithium manganate to spinel lithium manganate is 1:1), nano-carbon fiber conductive agent accounting for 5% of the positive active material and 6% of the positive active material The polyvinylidene fluoride binder dissolved in N-methylpyrrolidone, when the vacuum degree is not higher than 0.08MPa, the temperature is at 80°C, and the stirring speed is 1500 rpm, stir for 8 hours, take out the mixed slurry and add it to the diameter 12mm zirconium balls were ball milled for 8 hours at a speed of 500r / min, the mass ratio of the mixed slurry to the zirconium balls was 1:2, the zirconium balls were separated from the mixed slurry, and passed through a 100-mesh screen to obtain the positive electrode slurry; , The ambient temperature of the bal...

Embodiment 3

[0065] The special-purpose lithium manganate storage battery of the hybrid electric vehicle power supply of the present embodiment adopts following steps to make:

[0066] 1) First, the positive electrode active material (mass ratio of layered lithium manganate to lithium cobaltate and lithium iron phosphate is 1:0.5:0.5), the nano-carbon fiber conductive agent accounting for 15% of the positive active material, and the positive active material 10% polyvinylidene fluoride binder dissolved in N-methylpyrrolidone, at a vacuum degree of not higher than 0.08MPa, at a temperature of 80°C, at a stirring speed of 1000 rpm, stir for 6 hours, and take out the mixed slurry Add zirconium balls with a diameter of 12 mm, and ball mill for 6 hours at a speed of 800 r / min. The mass ratio of the mixed slurry to the zirconium balls is 1:2, separate the zirconium balls from the mixed slurry, and pass through a 100-mesh sieve to obtain the positive electrode slurry; The ambient temperature durin...

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Abstract

The invention provides a lithium manganate storage battery special for hybrid vehicles. A positive electrode material comprises a lithium manganate-containing positive active substance, a conductive agent accounting for 5-15% of the mass of the positive active substance, and an N-methylpyrrolidinone dissolved binder accounting for 5-10% of the mass of the positive active substance. A negative electrode material is composed of 85-95% of a negative active substance, 3-10% of a conductive agent and 2-10% of the N-methylpyrrolidinone dissolved binder. The positive active substance is a mixture of layered lithium manganate and more than one of lithium cobaltate, spinel type lithium manganate and lithium iron phosphate in a mass ratio of 1-2:0-1; the negative electrode material is mixture of more than one of natural graphite, artificial graphite, mesocarbon microbeads, hard carbon, lithium titanate, tin-based alloy and silicon-based alloy. The lithium manganate storage battery special for hybrid vehicles provided by the invention makes full use of the superiorities of the lithium manganate positive electrode material and polymer li-ion batteries, and has the advantages of smaller volume, lighter weight, longer life, better high temperature resistance, easier maintenance, more stable performance, and more environmental protection, etc.

Description

technical field [0001] The invention relates to the field of new high-capacity special storage battery equipment for hybrid electric vehicles, in particular to a special lithium manganate storage battery capable of supplying power to hybrid electric vehicles. Background technique [0002] Today, with the increasing shortage of oil resources and increasingly serious environmental pollution, the harmonious development of energy, resources, environment and human society has increasingly become the focus of attention, seeking to develop alternative energy sources for traditional petrochemical energy, realizing the development of harmless resource industries, and seeking the harmony between people and the environment. It is particularly urgent to realize the clean energy supply of mainstream vehicles such as automobiles. The widespread application of electric vehicles has become a reality, and the demand for high-energy density, large-capacity, and low-cost batteries is becoming ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/131H01M4/1391H01M4/505
CPCY02E60/10
Inventor 沈园众沈亨春沈元雄李亚军
Owner 深圳市索阳新能源科技有限公司
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