Liquid cooling technology allows the coolant to be directed straight to the heat source, achieving precise temperature control and efficient heat dissipation through coolant convection, significantly reducing the risk of thermal runaway and fire. In contrast, air cooling technology relies on fans to blow air over the heat sink, resulting in relatively lower heat dissipation efficiency.
| Parameter | numerical value |
| Type | LFP |
| Auxiliary power supply | 400V AC, 50/60Hz |
| Battery cell specifications | 3.2V/314Ah |
| Maximum charging and discharging power | 0.5P |
| System grouping method | 1P416S × 12 |
| rated energy | 5.01 MWh |
| rated voltage | 1331.2V |
| Voltage range | 1164.8 ~1497.6V |
| Cooling method | Liquid Cooling |
| BMU communication method | CAN |
| ambient temperature | -30~50℃ |
| ambient humidity | ≤95%RH ,Non-Condensing |
| altitude | <3000m, reduce capacity above 2000m |
| noise level | ≤80dB(A) |
| protection grade | IP55 |
| storage temperature | -20~45℃(1 month) 0~35 ℃ (6 months) |
| Fire Protection System | Temperature sensor+smoke sensor+combustible gas detector+explosion ventilation+ Fire extinguishing agent+reserved water spray+PACK level fire protection |
| Anti corrosion grade | C3-M |
| seismic grade | Level 7 |
| External communication interface | Ethernet/CAN/RS485 |
| External dimensions (L ×W × H) | 6058 ×2438 ×2896mm |
| weight | ≤ 42 tons |
| life | 20 year |
