The air cooled energy storage system is designed to deliver dependable electrical buffering for modern power networks and standalone energy setups. It utilizes lithium iron phosphate cells combined with a temperature regulation approach based on controlled airflow, helping maintain consistent operating conditions during charge and discharge cycles. The system supports flexible deployment across commercial buildings, industrial sites, and renewable integration projects. Its modular configuration allows capacity adjustment based on project requirements, while the integrated control unit coordinates energy flow and system protection. With stable output performance and long operational durability, it provides an efficient solution for managing intermittent power supply and improving overall energy utilization.
DC Side Specification:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| Rated Voltage | LFP 3.2V / 314Ah |
| Voltage Range | 7.2–936 V |
| Battery PACK Configuration | 52.249 kWh / 1P52S |
| Battery System Configuration (Rack) | 261.248 kWh / 1P260S |
| DC Protection | Breaker + Fuse |
AC Side Specification:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| Rated AC Power | 100 kW |
| Maximum AC Power | 120 kW |
| Rated AC Voltage | 400 V |
| Rated Frequency | 50 Hz |
| Harmonic Distortion | <3% (At Rated Power) |
| Power Factor | >0.99 (At Rated Power, >20% Load) |
| Reactive Power Adjustment Range | -105% – 105% |
System Specification:
| Project / Parameter | Main Parameter / Specification |
|---|---|
| System Efficiency | ≥89% (Without internal consumption) |
| Charge/Discharge Ratio | ≤0.5C |
| Discharge Depth | 0–99% DOD |
| Cycle Life | > 8000 cycles&70% |
| Protection Degree | IP54 |
| Cooling Method | Liquid Cooling |
| Corrosion Resistance Level | C4 |
| Fire Protection System | Active Alarm + Aerosol + PACK Immersion |
| Operating Temperature Range | -30℃ ~ 50℃ (Derating above 45℃) |
| Operating Altitude | ≤4000 m (Derating above 2000 m) |
| Operating Humidity | 0–95%, Non-Condensing |
| Communication Interface | RS485, CAN, Ethernet |
If you would like to explore the full capabilities of our air cooled energy storage system, understand how it can enhance your energy reliability, or discuss a customized configuration tailored to your project requirements, please feel free to contact our team for detailed information and professional support.
Choosing the right energy storage solution is critical for ensuring long-term reliability, operational efficiency, and energy independence. Our air cooled energy storage system is engineered to deliver stable performance in demanding commercial, industrial, and off-grid environments, making it a dependable choice for businesses that require uninterrupted power support and scalable energy management.
One of the key advantages of our system is its advanced air-cooling thermal management design. Unlike complex liquid cooling systems, the air-cooled structure provides a simpler, more cost-effective, and easier-to-maintain solution while still maintaining optimal battery operating temperatures. This helps extend battery lifespan, reduce system maintenance requirements, and improve overall operational safety. The intelligent airflow control ensures consistent cooling performance even under continuous high-load conditions.
Built with high-quality LiFePO4 battery technology, our system offers exceptional safety, long cycle life, and strong thermal stability. With a cycle life exceeding 6000 cycles, it significantly reduces replacement frequency and total cost of ownership. The system also supports deep discharge capability, allowing users to maximize usable energy without compromising battery health.
Another major benefit is its modular and scalable architecture. The system can be easily expanded to meet growing energy demands, making it suitable for applications ranging from small commercial facilities to large industrial energy storage projects. Whether used for peak shaving, backup power, or renewable energy integration, the system provides flexible deployment options and seamless expansion capability.
The built-in intelligent Battery Management System (BMS) ensures real-time monitoring and protection across all critical parameters, including voltage, current, temperature, and state of charge. This advanced control system enhances operational safety by preventing overcharging, over-discharging, short circuits, and overheating. Remote monitoring capabilities also allow users to manage system performance efficiently from anywhere.
In addition, the system is designed for high compatibility and seamless integration. It works smoothly with solar PV systems, UPS infrastructure, and hybrid inverters, enabling efficient energy switching between grid power, stored energy, and renewable sources. This makes it ideal for organizations seeking energy resilience and reduced dependency on unstable grids.
Finally, our air cooled energy storage system is built to meet international standards such as CE, UL, and IEC, ensuring reliable performance in global markets. With its combination of safety, efficiency, scalability, and low maintenance design, it provides a powerful and future-ready energy storage solution for modern energy needs.
This system is engineered to deliver reliable and continuous power support for mission-critical environments such as commercial buildings, telecom infrastructure, and distributed energy systems.
It integrates seamlessly with solar PV systems, UPS units, and hybrid inverters, enabling intelligent switching between grid power, battery storage, and renewable energy sources. The built-in smart BMS provides real-time monitoring, system protection, and optimized energy distribution to ensure maximum efficiency and safety.
The air cooled energy storage system supports scalable energy capacity, making it suitable for both medium and large-scale applications requiring stable and uninterrupted power supply.
The system uses high-grade LiFePO4 battery cells with excellent thermal stability and long service life. The enclosure is built with industrial-strength metal housing and flame-retardant insulation materials to ensure safety and durability.
Optimized airflow channels and precision-designed air cooling pathways maintain consistent internal temperatures, improving system efficiency and extending battery lifespan. High-conductivity copper busbars are used to reduce resistance and enhance power transmission stability.
Each air cooled energy storage system is manufactured under strict quality control standards, including cell screening, module balancing, and full system integration testing.
The intelligent BMS continuously monitors voltage, current, temperature, and system status to prevent overcharge, over-discharge, overheating, and short circuit risks. Every unit undergoes capacity validation, aging simulation, and safety testing to ensure long-term reliability in demanding environments.
The air cooled energy storage system is widely used in commercial energy storage, industrial backup power, solar energy systems, telecom base stations, and off-grid installations.
It supports peak load shifting, emergency power supply, renewable energy integration, and grid stabilization. It is ideal for environments requiring cost-effective cooling solutions and reliable continuous operation.
The system complies with international safety and performance standards including CE, UL, UN38.3, MSDS, and IEC certifications.
Designed for industrial-grade deployment, it ensures safe and stable operation under variable load and environmental conditions. Built-in protection mechanisms guarantee long-term operational reliability.
Q1: What is an air cooled energy storage system?
A: It is a lithium battery energy storage system that uses air cooling technology to regulate temperature and ensure stable performance.
Q2: Where can it be used?
A: It is suitable for commercial buildings, industrial backup power, solar systems, and off-grid energy storage.
Q3: Is it compatible with solar systems?
A: Yes, it integrates with PV systems, inverters, and hybrid energy setups.
Q4: How long is the cycle life?
A: Typically more than 6000 cycles depending on operating conditions.
Q5: Can the system be expanded?
A: Yes, it supports modular parallel expansion for higher capacity needs.
The system automatically adjusts internal air circulation paths to maintain balanced thermal distribution under different load conditions.
Each energy unit operates with semi-independent control logic, improving operational flexibility and fault isolation capability.
Simplified cooling mechanism reduces dependency on complex components, minimizing routine service requirements over time.
The system can rapidly adjust output behavior according to fluctuating demand, supporting smoother energy transitions.
Compact layout planning allows higher energy density deployment within limited installation environments.
Integrated protection layers at hardware and control levels provide coordinated response to abnormal operating conditions.
The air cooled energy storage system can be deployed in a variety of emerging energy scenarios, including distributed power regulation nodes, microgrid cooperative supply units, intermittent renewable energy buffering platforms, and backup power support for critical equipment environments. It is suitable for systems that require smooth power output and fast switching capability, as well as projects focused on energy scheduling optimization and localized grid stability improvement, providing continuous support across complex and dynamic power demand structures.
Widely used in offices, shopping centers, and business complexes to stabilize electricity usage, reduce peak demand pressure, and support uninterrupted daily operations.
Commonly paired with photovoltaic systems to store excess solar power during the day and release it during nighttime or low-generation periods.
Applied in factories and manufacturing facilities to provide emergency power during grid instability or unexpected outages, ensuring production continuity.
Used in base stations and network hubs to maintain stable power supply for communication systems that require continuous uptime.
Deployed in remote or independent power networks to balance energy supply and demand, supporting reliable operation without full grid dependency.
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