Support & Service
Provide customers with the best quality and fast service
Q: What are the core advantages of containerized energy storage systems?
A: They integrate batteries, inverters, and EMS into standardized 20/40ft containers, reducing footprint by 30% compared to traditional setups. Features include peak shaving, emergency power supply, and rapid deployment capabilities
Q: What scenarios are these systems suitable for?
A:
- Grid-side: Renewable energy integration (solar/wind), frequency regulation
- Industrial/Commercial: Factories, construction sites, and large events requiring mobile power
Q: How does the system ensure safety?
A: Equipped with multi-layer protection:
- Automotive-grade lithium batteries with BMS/EMS for overcharge/overdischarge prevention
- Aerosol fire suppression and IP54+ rated enclosures
- Thermal management systems (-20°C to 50°C operation)
Q: How does it compare to diesel generators?
A:
- Cost: No fuel expenses; leverages peak-valley electricity pricing (saves ~¥2/kWh vs. diesel)
- Eco-friendly: Zero emissions and noise <50 dB
Q: Can it integrate with renewable energy sources?
A: Yes. Supports solar/wind hybrid configurations for off-grid charging, reducing reliance on traditional grids
Q: What is the maintenance requirement?
A: Minimal upkeep:
- Biannual system checks and automated health monitoring via EMS
- Free battery replacements by operators after lifecycle degradation
Q: How long does deployment take?
A: Pre-assembled containers enable installation within 1 day via cranes or vehicles, eliminating civil engineering work
Q: Is scalability supported?
A: Modular design allows multi-unit parallel connections. Example: 5MW/10MWh clusters using high-voltage cascading technology
Q: What technical support is provided?
A: 24/7 remote monitoring, on-site troubleshooting, and customized EMS software for load optimization
LFP stands for Lithium Iron Phosphate. Charging or discharging a battery is essentially an electrochemical process. Lithium iron phosphate indicates the chemical composition of the cathode of a battery cell.