Features:
- Product Name: Containerized Battery Energy Storage System
- Container Size: 20ft
- Voltage Range: 400-800V
- Application: Power Grid Stabilization And Peak Shaving
- Warranty: 5 Years
- Monitoring System: Remote Monitoring And Control
This Containerized Battery Energy Storage System is a transportable battery power station designed to provide power grid stabilization and peak shaving. With a voltage range of 400-800V, this product comes with a 5 year warranty and a remote monitoring and control system.
Technical Parameters:
| Type | P400C860 | P500C1075 | P600C1290 | P700C1505 | P800C1720 | | DC side parameters | | Cell type &capacity | LiFePO₄-280Ah | | Battery module type | 1P20S | | System configuration | 4*1P240S | 5*1P240S | 6*1P240S | 7*1P240S | 8*1P240S | | Capacity(BOL) | 860kWh | 1075kWh | 1290kWh | 1505kWh | 1720kWh | | AC side parameters | | Grid type | 3P4W+PE | | Rated output power | 400kW | 500kW | 600kW | 700kW | 800kW | | Rated voltage | AC400V | | Rated frequency | 50/60(±5)Hz | | Maximum output current | 577A | 722A | 866A | 1010A | 1155A | | Harmonics | <3%(@rated power) | | Overload capacity | 110%,10mins;120%,60s | | General parameters | | Isolation transformer | No | | Protection level | Outdoor installation (Battery cabinet:IP55,Electrical room:IP34) | | Container anti-corrosion grade | C3 | | Operation temperature* | -20℃~50℃ | | Relative humidity | 0~95%(non-condensing) | | Permissible altitude** | <2000m | | Cooling method | Battery cabinet:HVAC,Electrical room:forced air cooling | | Fire fighting system | FAS &FM200/Novec1230 | | Noise emission | ≤75dB | | Dimension (W*D*H) | 20HQ container (6058mm*2438mm*2896mm) | | Maximum weight | 24500kg | | Communication interface | Ethernet | | Communication protocol | Modbus TCP/IP | | Warranty | 5 years (can be extended to 10 years)Warranty | |
Certification
| System:UN3536,LVD,EMC,RoHS Cell:IEC62619,UL1973,UL9540A PACK:UN38.3
PCS:G99,EN50549,AS4777.2,VDE4105 | |
Advantages of containerized energy storage systems
Portability and Flexibility
- Easy Transport: Standard shipping containers allow for straightforward transportation and deployment, making it simple to relocate or scale the storage system as needed.
- Modular Design: Containerized systems can be easily expanded by adding more units, accommodating varying energy storage requirements.
Rapid Installation
- Quick Setup: Pre-fabricated containerized systems can be installed and operational within a short timeframe, reducing downtime and speeding up project deployment.
- Minimal Site Preparation: Containerized solutions often require less extensive site preparation compared to traditional installations.
Robust Protection
- Weather Resistance: Containers provide excellent protection against harsh environmental conditions, including rain, dust, and extreme temperatures, ensuring system durability.
- Security: The enclosed design offers enhanced security for the batteries and electronic components, reducing the risk of theft or vandalism.
Scalability
- Adaptable Capacity: Containerized energy storage systems can be scaled up or down based on changing energy needs, making them suitable for various applications from small businesses to large industrial operations.
Cost-Effectiveness
- Reduced Infrastructure Costs: The modular nature of containerized systems can lower infrastructure costs compared to traditional stationary installations.
- Efficient Use of Space: Containers maximize space utilization, making them ideal for urban or constrained environments.
Integration with Renewable Energy
- Support for Renewables: Containerized storage systems can easily integrate with renewable energy sources like solar and wind, enhancing the reliability and efficiency of these systems.
- Grid Stability: They help balance supply and demand by storing excess energy generated during peak production times for use during high demand.
Advanced Technology
- Cutting-Edge Components: Many containerized energy storage systems utilize advanced battery technologies, such as lithium-ion, which offer high energy density and efficiency.
- Smart Monitoring: Integrated monitoring systems allow for real-time data collection and management, optimizing performance and maintenance.
Environmental Benefits
- Reduced Carbon Footprint: By facilitating the use of renewable energy and improving energy efficiency, containerized storage contributes to lowering greenhouse gas emissions.
- Promoting Sustainability: These systems align with sustainability goals, making them attractive for companies focused on environmental responsibility.
Versatile Applications
- Diverse Use Cases: Containerized energy storage can be used in various sectors, including commercial, industrial, and utility-scale applications, as well as for backup power in critical facilities.
Conclusion
Containerized energy storage systems offer numerous advantages, including portability, scalability, and efficiency, making them an attractive solution for businesses and organizations looking to enhance their energy management and sustainability efforts.
