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New energy vehicles

With the continuous development of the new energy vehicle industry, the number of pure electric vehicles is also increasing. According to statistics, as of June 2019, the total number of pure electric vehicles in China is approximately 2.81 million. The biggest difference between pure electric vehicles and traditional fuel vehicles is that the power source is the battery pack, not the fuel engine. Will the power battery affect the performance of the vehicle? With the current situation of the new energy market, consumers' attitudes and attitudes towards new energy vehicles have gradually changed.
From the launch of new energy electric vehicles, where consumers do not understand, adopt, or accept them, to the current desire to choose, it can be said that new energy vehicles have won the agreed progress and development. However, compared to traditional fuel vehicles that have dominated the automotive market for decades, this new type of car has also raised many consumers' doubts about its safety. Electric vehicles refer to vehicles that are powered by on-board power sources, driven by electric motors, and comply with road traffic and safety regulations. It uses electricity stored in the battery to start.

Energy storage base station

1. From an environmental perspective, lithium-ion battery packs have natural advantages. The materials used in lithium iron phosphate batteries do not contain polluting metals, such as harmful heavy metals such as cadmium, lead, and mercury. There are no pollutants present in the production and use of lithium ion batteries.
2. From the perspective of electrical performance, lithium-ion battery packs comprehensively surpass lead-acid batteries. The cycle life, high-temperature characteristics, charge discharge rate performance, and energy density of lithium iron phosphate batteries are excellent, far superior to lead-acid batteries.
3. The excellent high-temperature characteristics of lithium-ion batteries can reduce the air conditioning configuration and power consumption of the base station. After lithium-ion batteries are stolen, their recycling value is not significant. Due to the existence of a battery management system, they cannot be directly used, reducing the risk of backup power being stolen.
4. Lead acid batteries have the disadvantages of occupying a large area, being heavy, and having high load-bearing requirements, making it increasingly difficult to meet the requirements of small space scenarios. The energy density of lithium iron phosphate battery energy storage packs is 2-4 times that of lead-acid batteries, making them particularly suitable for use in the aforementioned environments.

Electric two wheeled vehicle

Lithium batteries have become a trend in the use of two wheeled electric vehicles due to their economic value compared to lead-acid batteries. Currently, most electric two wheeled vehicles use lithium batteries.
There are some differences between lithium batteries and lead-acid batteries. When used on electric two wheeled vehicles, lead-acid batteries can never be compared to lithium batteries when delivering food. This is due to the drawbacks of lead-acid batteries, which have been used for about six months and often have lower storage performance than lithium batteries. However, the price is indeed very affordable, but it is not very effective in critical situations. Many friends who work on electric two wheeled vehicles choose lithium batteries first.
Lithium batteries have advantages over lead-acid batteries. Lithium batteries are lighter in size than lead-acid batteries, and under the same capacity, such as 60 volts and 20 amperes, lead-acid battery packs can only meet the voltage of 60 volts with 5 combinations of the same size. A battery pack with a capacity of 20 amperes is not very convenient. Lithium batteries are relatively small in size, lightweight, and suitable. When there is no electricity, they can be replaced in an emergency.
The use of lithium batteries in two wheel electric vehicles has improved the efficiency of workers. Sometimes it may seem insignificant, but in reality, it has changed many problems. Give lithium batteries a thumbs up

Frequency modulation energy storage

The large-scale lithium iron phosphate battery energy storage system has the characteristics of fast response speed, strong short-term power processing ability, and easy adjustment direction. Combined with traditional frequency modulation power sources, it can serve as an effective means to assist traditional unit frequency modulation. The fast response and precise tracking capabilities of battery energy storage systems make them more effective than traditional frequency modulation methods, significantly reducing the required rotating reserve capacity of the power grid. The rotational reserve capacity saved by the participation of the battery energy storage system in frequency regulation can be used for peak shaving and emergency backup of the power grid, further improving the safety and reliability of power grid operation.
In addition to its technological advantages, the lithium iron phosphate battery energy storage system can not only save investment and operating costs in the power system, reduce coal consumption, and improve the static welfare of the application program for grid frequency regulation, but also generate dynamic benefits because of its fast response and flexible operation, which can meet the frequency modulation requirements of system operation.