As for the production of KIJO's advanced lead-carbon battery, the carbon material (C) with double electric layer capacitance and lead (Pb) negative electrode are normally first combined so as to make a lead-carbon dual-function composite negative plate with both capacitance and battery characteristics. Then, this lead-carbon dual-function composite negative plate will be matched with the positive electrode and assembled into a lead-carbon battery. The following will mainly talk about the advantages of KIJO's advanced lead-carbon batteries from two aspects.
The charging time of KIJO advanced lead carbon battery is one-eighth that of lead-acid batteries, and their cycle life is more than four times of lead-acid batteries. Compared with the lithium batteries, the lead-carbon battery also has the advantages of good performance with low-temperature, low cost, mature production and recycling processes and so on. With the greatly improved rate performance of lead-carbon batteries, the industrial application of lead-carbon batteries in the field of energy storage has begun to mature.
Yang Yusheng, an academician of the Chinese Academy of Sciences, maintains that with the significant advantages of low cost, great safety, easy availability of raw materials, reliability, and mature industrialization technology, lead-carbon batteries have already been successfully applied to urban microgrids, wind and solar energy storage power stations, wind circuit lights and other systems. Providing kinetic energy for various electric vehicles, the lead-carbon battery is definitely an energy storage battery that conforms to China's industrial layout and manufacturing level.
As lead-carbon batteries use lead-carbon technology, the performance of lead-carbon batteries is far superior to the traditional lead-acid batteries, and they can be used in new energy vehicles, such as hybrid vehicles and electric bicycles. The lead-carbon batteries can also be utilized for new energy storage fields, such as wind and solar power generation and energy storage. Moreover, the lead-carbon batteries also have a low-cost advantage that is similar to the traditional lead-acid batteries. Having a mature industrial manufacturing bases, the lead-carbon batteries have strong competitive advantages in various application fields.
This hybrid technology can quickly output and input charges during vehicle acceleration and braking, and is particularly suitable for the "stop-start" system of micro-hybrid vehicles. Finally, the lead-carbon batteries can increase the power of the original lead-acid batteries and extend their service life.
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