230V 35kWh C&I energy storage system

1. Some Parameters

Battery Type: Lithium Iron Phosphate (LFP) 

Standard charging/discharging current:150A 

Operating temperature:-10~51°C

1. Component Parts

This product mainly consists of three battery packs, a battery housing, four main communication lines, positive and negative connection harnesses and a power distribution unit. The three batteries are connected by the main communication line and the positive and negative connection harnesses, which together store the transmission current.

1. Application Scenarios

①Separately configured energy storage: saving electricity costs for enterprises through peak-shaving and valley-filling or as a backup power source, mainly used in factories and shopping malls, etc.

②Integration of light storage and charging: Building integrated light storage and charging power station on limited land, using roof and parking lot canopy photovoltaic, configuring energy storage system to achieve "self-generation and self-consumption, surplus storage", effectively alleviating the impact of charging pile load on the grid.

③Microgrid + energy storage: Microgrid is regarded as a controllable unit in the grid, which reacts in seconds to meet the demand of external transmission and distribution network, and can meet the energy needs of a piece of electric load gathering area, such as: islands, distant residential areas and industrial parks, etc. If a microgrid is established in a load concentration area and the energy storage system is used to store power, the storage system can supply power to the load smoothly when there is a short-time power outage. For off-grid microgrids, energy storage can smooth new energy generation and be used as backup power; for grid-connected microgrids, the main role of energy storage is to achieve energy optimization and energy saving.

Precautions

1. Installation: Ensure proper installation by qualified professionals to guarantee system efficiency and safety.

2. Maintenance: Regular maintenance is essential to keep the system in optimal working condition and prolong its lifespan.

3. Ventilation: Provide adequate ventilation to manage heat dissipation during operation and prevent overheating.

4. Safety Protocols: Implement safety protocols to prevent electrical hazards and ensure personnel are trained in handling the system.

5. Monitoring: Set up a monitoring system to track energy levels, performance, and any potential issues in real-time.

6. Load Management: Manage energy loads effectively to avoid overloading the system and ensure stable operation.

7. Compatibility: Ensure compatibility with existing infrastructure, such as solar panels or grid connections, for seamless integration.

8. Emergency Preparedness: Have a plan in place for emergency situations, including power outages, and how the system can provide backup power.

9. Warranty and Support: Understand the warranty terms and availability of technical support from the manufacturer or supplier.

10. Regulations: Adhere to local regulations and codes for energy storage systems to ensure compliance and safety.

11. Disposal: Plan for proper disposal of components at the end of the system's lifecycle, considering environmental impact.

12. Scalability: Consider the potential for future expansion or scalability of the system to meet changing energy needs.

13. Data Security: Implement measures to protect any data collected or transmitted by the monitoring system.

Remember, the proper operation and maintenance of the energy storage system are essential for its effective and safe performance over time.