The Decay Cause for 12 Volt 100 Amp Hour Lithium Battery

Lithium iron phosphate battery is a common type of lithium-ion battery. It has the advantages of high energy density, long cycle life, and no pollution, so it is widely used in electric vehicles, electric tools and other fields. However, in a low temperature environment, the performance of lithium iron phosphate batteries will be attenuated to a certain extent.

Grepow Low Temperature Lithium Iron Phosphate Battery

The attenuation of lithium iron phosphate batteries at low temperatures is mainly manifested in the following aspects:

• Increased internal resistance: Low temperature will lead to a decrease in the ion conductivity of the electrolyte, and a decrease in the responsiveness of the active material of the electrode material, which will increase the internal resistance of the battery.
• Reduced capacity: At low temperature, the available capacity of the battery will decrease. This is because the reaction rate of the active material of the electrode material slows down, which reduces the discharge capacity of the battery.
• Shorter life: at low temperature, the cycle life of the battery will be affected. This is because at low temperature, the active material of the electrode material is easy to form a solid electrolyte interface layer during the charge-discharge cycle, resulting in a decrease in the reactivity of the electrode material, thereby shortening the cycle life of the battery.

In order to reduce the attenuation of lithium iron phosphate batteries at low temperatures, the following methods can be adopted:

• The use of optimized electrode materials, such as high specific energy electrode materials, can improve the capacity and performance of batteries at low temperatures.
• By changing the electrolyte composition and adding additives, the ion conductivity of the electrolyte at low temperature can be improved, thereby reducing the internal resistance of the battery.
• Use a heating system to maintain the temperature of the battery and improve the performance of the battery at low temperatures. This is one of the methods widely used in electric vehicles and other fields.
• When designing the battery system, the use environment at low temperature should be considered, and the battery combination mode should be reasonably selected and the working conditions for controlling battery charging and discharging should be considered.
• R&D, production and manufacturing of low-temperature lithium iron phosphate batteries specially suitable for working in low-temperature environments.