1P52S 166.4V 46.6kWh/52.2kWh Liquid Cooling LiFePO4 Battery Pack
1P52S 166.4V 46.6kWh/52.2kWh Liquid Cooling LiFePO4 Battery Pack For ESS
- Category: LiFePO4 Battery
- Tag: lifepo4 battery
Feature
· High safety: High safety battery, from the source to ensure the safety of the battery pack; Electrical high strength insulation redundancy, can effectively avoid the safety problems caused by electrical failures.
· Long service life: The use of long life cell, long cycle life, can reduce the frequency of replacement, reduce the cost of use.
· High protection: high protection, can effectively dust, waterproof, adapt to a variety of harsh environment; High corrosion resistance, excellent corrosion resistance, can work stably in corrosive environments such as high humidity and high salinity.
· Easy maintenance: The use of fast-plug connector, easy to install and disassemble, reduce the difficulty of maintenance and time cost.
· Flexibility and high performance: Modular design can be flexibly expanded and combined according to different working conditions and needs to meet a variety of application scenarios; Meet the requirements of high altitude use, a wide range of applications.
Specifications
Parameter | Technical Indicators | |
Rated voltage | 166.4V | 166.4V |
Rated capacity | 280Ah | 314Ah |
Nominal Energy | 46.6kWh | 52.2kWh |
Voltage Range | 130~189.8V | 130~189.8V |
Charge-discharge Rate | 0.5P/0.5P | 0.5P/0.5P |
Burst Mode | 1P52S | 1P52S |
Cooling System | Liquid cooling | Liquid cooling |
Size | L1167*W790*H243mm | L1167*W790*H243mm |
Application | ESS | ESS |
Outstanding advantage
Liquid Cooling LiFePO4 Battery Pack
Excellent thermal management performance: The liquid cooling system can efficiently take away the heat generated by the battery during the charge and discharge process, so that the temperature distribution in the battery pack is more uniform, and effectively avoid local overheating. Compared with air cooling, the specific heat capacity of liquid is larger, and the heat dissipation capacity is stronger, which can accurately control the operating temperature of the battery in the ideal range (generally 25℃ -40 ℃), significantly improve the safety and stability of the battery, and extend the service life of the battery.
Applications
Grid side energy storage: it can be used for peak regulation and frequency regulation of the power grid, storing electric energy when the power load is low, releasing electric energy when the load is high, balancing the power grid fluctuations, and improving the stability and reliability of the power grid operation. For example, it has played an important role in the power grid regulation project of Qingshan Park in Indonesia.
Industrial and commercial energy storage: it can help industrial and commercial users to achieve peak cutting and valley filling, charging when the price is low, discharging energy when the price is high, reducing the cost of electricity for enterprises, and can also be used as a backup power supply to ensure the continuity of production and operation of enterprises and improve the efficiency of power utilization.
Other energy storage fields: It can also be applied to distributed power generation energy storage, micro-grid energy storage and other scenarios, with distributed energy such as solar energy and wind energy, to store excess electricity, improve energy utilization efficiency and self-sufficiency rate, and ensure the stable operation of micro-grid.