6.25 MWh energy capacity using LFP 3.2V/587Ah cells, built for stable and long-term power support in industrial and commercial environments.
Integrated liquid cooling system ensures consistent thermal control, improving battery life and system reliability under heavy-duty cycles.
IP54-rated enclosure with anti-corrosion treatment; designed to perform in outdoor conditions from -30℃ to 50℃ and 5%-95% humidity (non-condensing).
System supports parallel connection and scalable deployment, allowing easy expansion to meet future energy growth.
20ft containerized unit that combines BMS, EMS, PCS, and fire protection in a compact footprint, reducing installation time and complexity.
Delivers up to 98.4% efficiency, helping minimize system losses and increase usable power across applications.
Equipped with LAN, CAN, and RS485 ports; compatible with Modbus TCP for real-time monitoring and remote diagnostics via EMS.
Includes aerosol-based and cabinet-level fire suppression, fault detection, and fast response switching to off-grid mode under 10ms.
Designed for both on-grid and off-grid setups; supports peak shaving, solar self-consumption, and backup power for critical operations.
| Model Number | HJ-G0-6250L |
| Battery Type | lithium iron phosphate (LiFePO4) |
| Rated Capacity | 6.25 MWh |
| Cell Specification | LFP 3.2V/587Ah |
| Soc Estimation Accuracy | ≤5% |
| Self-discharge rate / month | ≤3% |
| IP Protection Rating | IP54 |
| Weight (Kg) | 36,000 |
| Cooling Method | Liquid Cooled |
| Noise level | <65 dB (1m from system) |
| Communication Interface | Wired: LAN, CAN, RS485 |
| Communication protocol | Modbus Tcp |
| Dimension | 20ft container |
Note: Specifications are subject to change without prior notice for product improvement. Data Sheet / Get your free product catalog and the latest pricing!
This system employs an advanced liquid cooling technology with closed-loop coolant circulation and intelligent temperature regulation to maintain uniform thermal conditions across the large battery bank.
Liquid cooling ensures superior heat dissipation compared to air cooling, enabling higher power charge/discharge rates, extending battery lifespan, enhancing safety by preventing overheating, and ensuring stable operation under demanding industrial loads.
This system is ideal for large-scale industrial peak shaving, renewable energy smoothing and storage, grid frequency regulation, emergency backup power, microgrid support, and participation in ancillary grid services.
The system integrates real-time coolant leak detection, multi-point temperature monitoring, Battery Management System (BMS) safeguards, automatic fire suppression, and emergency shutdown mechanisms to guarantee reliable and safe operation.
Routine maintenance includes inspecting coolant quality and levels, checking pumps and valves, cleaning heat exchangers, monitoring for leaks, and performing system diagnostics to sustain effective thermal management and prolong battery life.
Yes, its modular design supports scalable expansion and seamless integration with solar, wind, diesel generators, and grid systems, enabling hybrid microgrid solutions and optimized energy management.
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