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Product Advantage
• Standard 10-foot container design, compact design, suitable for small user side scenarios; Applicable to small-scale user scenarios;
• 280AhPACK+ Pack-level targeted fire suppression + Pack-
• The main control cabinet, Integrated DC confluence, power distribution, communication and control;
• Cell-level fully automatic fire protection, integrating detection, fire extinguishing, combustible gas detection,
level fan speed control;
• 1000V DC,20 years of normal use;
• Patented bionic tree runner design, intelligent temperature control system, system temperature difference €5°C, battery cycle life increased by 12%;
smoke prevention, and explosion venting functions;
• The module uses a new type of non-metallic material, the blocking level is 5VA, and it has the characteristics of high temperature resistance, long-life, and excellent insulation ability, which effectively inhibits thermal runaway and electrical insulation problems;
• Black start function.
Technical Parameters
Mode | YTPowerl290A |
Battery parameters | |
Cell type | LFP-3.2V-280Ah |
Rated power[kWh] | 1290.24 |
Charge/Discharge ratio | ≤0.5CF |
Battery voltage range[V] | 672~864 |
System parameters | |
BMS | Level3 |
Size(width*Height*depth)[MM | 2991*2896*2438(10ft) |
Weight[KG] | 14T |
Protection grade | |P54 |
Operating temperature range | -30~+50℃(>45℃ derating) |
Operating humidity range | 0~95%(non-condensing) |
Auxiliary electrical parameter | 14kW-380V/50Hz |
Fire protection | S-type aerosol/HFC-227EA/perfluorohexanone |
Installation | Outdoor installation |
Anticorrosion grade | C4(C5 Optional) |
Altitude | Within 3000 m |
Working condition | Up to 2 charges and 2 discharges per day |
System communication interface | Ethernet |
External system communication protocol | Modbus TCP |
Certificatior | GB/T36276、GB/T34131、UL1973、UL9540A、IEC62619、UN38.3 |
Product Uses
1)Demand Management: Energy storage containers can help manage peak demand by storing excess energy during low-demand periods and releasing it during high-demand periods. This allows businesses to reduce their reliance on the grid during peak times, avoiding expensive demand charges and optimizing their energy consumption.
2)Load Shifting: By storing energy during off-peak hours when electricity prices are lower, businesses can shift their energy usage to those periods. This load shifting helps reduce energy costs and enhances grid stability by balancing the supply and demand dynamics.
3)Renewable Integration: Distributed energy storage containers can facilitate the integration of renewable energy sources, such as solar or wind power, into the industrial and commercial sectors. They can store excess renewable energy generated during favorable weather conditions and release it when the renewable generation is insufficient, ensuring a more reliable and stable power supply.
4)Power Quality and Reliability: Energy storage containers can provide backup power during grid outages or voltage fluctuations, ensuring uninterrupted operations for critical industrial processes. They can also improve power quality by providing voltage and frequency regulation services, enhancing the stability and reliability of the electrical supply.
5)Ancillary Services: Energy storage containers can participate in various grid services, such as frequency regulation, voltage support, and grid stabilization. By providing these ancillary services, they contribute to the overall stability and efficiency of the electrical grid.
6)Microgrid Support: Distributed energy storage containers can be integrated into microgrid systems, which are localized energy networks that can operate independently or in conjunction with the main grid. These containers can store excess energy generated within the microgrid and provide backup power during grid disruptions, enhancing the resilience and self-sufficiency of the microgrid.
