51.2V 280Ah 314Ah Rack Mount Lifepo4 Battery 80KWh Energy Storage
1. UN38.3/MSDS/CE/IEC/FCC Certificates
2. Grade-A LiFePo4 Battery
3. Rack Mounted Battery
4. Customizable Battery Capacity
5. More than 8000 times cycle life and warranty 10 years
The 51.2V 280Ah 314Ah Rack Mount LiFePO4 Battery 80kWh Energy Storage is a modular lithium battery system designed for standardized rack-mounted installation. Each module operates at a nominal voltage of 51.2V, with capacity options of 280Ah or 314Ah, delivering approximately 14.3kWh to 16.1kWh per module. By stacking multiple units, the system can reach a total capacity of 80kWh, offering flexible scalability for both residential and light commercial applications.
Among leading battery energy storage manufacturers, this rack-mounted architecture is widely adopted due to its ease of integration, efficient space utilization, and simplified maintenance. It is particularly suitable for battery home energy storage systems, where reliable backup power and optimized energy management are essential. The modular design allows users to expand capacity in parallel as energy demands grow, without the need for major system redesign.


As part of the broader transition toward battery storage and renewable energy, this LiFePO4 solution integrates seamlessly with solar and other renewable sources, enabling load shifting, peak shaving, and improved energy self-consumption. Offered by BLOOPOWER, the system combines safety, scalability, and long cycle life, making it a dependable choice for users seeking a future-ready energy storage platform.
How Does the 80kWh Capacity Enhance System Performance?
Achieving 80kWh with the 51.2V 280Ah or 314Ah Rack Mount LiFePO4 Battery Energy Storage system typically involves stacking five to six modules, depending on the selected Ah rating. For example, five 314Ah modules can deliver approximately 80.38kWh, making this configuration a strong candidate for the best battery for solar energy storage in large residential or small commercial systems. It supports high-voltage architectures of up to 768V and is well suited for off-grid or hybrid solar applications.
Parameter
| NO | Model No. | BP-LV-50KWH | BP-LV-100KWH | BP-LV-160KWH | BP-LV-240KWH |
| 1 | Rated Voltage | 51.2V | 51.2V | 51.2V | 51.2V |
| 2 | Cell Combination Type | 16S5P | 16S10P | 16S5P | 16S15P |
| 3 | Cell Capacity | 200Ah | 200Ah | 314Ah | 314Ah |
| 4 | Rated Energy | 51.2KWh | 102.4KWh | 160.76KWh | 241.15KWh |
| 5 | Voltage Range | 40V~58.4V | 400V~574V | 40V~58.4V | 40V~58.4V |
| 6 | Cycles(80% DOD) | 8000 cycles | 8000 cycles | 8000 cycles | 8000 cycles |
| 7 | Depth of Discharge | 80%~90% | 80%~90% | 80%~90% | 80%~90% |
| 8 | Maximum Continuous Charge Current | 200A | 200A | 200A | 200A |
| 9 | Maximum Continuous Discharge Current | 200A | 200A | 200A | 200A |
| 10 | Operation Temperature | Charge: 0℃~55℃,Discharge: -10~55℃ | |||
| 11 | Display | LCD | |||
| 12 | Cell Type | LiFePo4 Lithium Ion Phosphate Battery | |||
| 13 | Communication | RS485/CAN/RS232 | |||
| 14 | Compatibility | Compatible with most of available on/off-grid inverters | |||
| 15 | BMS | Intelligent battery mangement system | |||

Advantages of Low-voltage energy storage battery
Flexibility and Scalability
One of the biggest advantages of rack-mounted energy storage batteries is their flexibility and scalability. Each battery module can be placed independently and assembled using a rack system. This means users can add or remove battery modules as needed to adapt to changing household or commercial power demands. This modular design makes low-voltage energy storage systems more customizable, facilitating future upgrades or expansions.
Easy Installation and Maintenance
Since rack-mounted energy storage battery modules are typically mounted individually on racks, the installation process is relatively simple. Technicians can more easily plan the layout, saving installation time. Furthermore, the rack-mounted system design also makes battery maintenance easier. When a battery module fails or needs replacement, technicians can directly replace that module without dismantling the entire system.
Optimized Space Utilization
The rack-mounted design typically allows batteries to be stacked vertically or horizontally, making full use of limited space. Especially in smaller spaces (such as home garages or commercial locations), this design utilizes every inch of space more efficiently, allowing the battery system to be installed and operated without taking up too much floor space.
Excellent Heat Dissipation
The bracket-type design typically allows sufficient gaps for airflow between battery modules, thereby improving battery heat dissipation. Good heat dissipation helps extend battery life and improve battery safety. The heat generated by the battery during operation can be effectively dissipated, preventing overheating and reducing the risk of battery failure.

This level of capacity is especially important for households relying on home energy storage batteries, as it can power an average home for several days during extended grid outages. When integrated with solar PV systems, studies indicate that such setups can improve overall energy efficiency by 15–20% through enhanced self-consumption and optimized load management.
From an economic perspective, scaling capacity through modular stacking also helps manage the cost of battery energy storage system, allowing users to expand incrementally rather than investing in oversized systems upfront. The 314Ah LiFePO4 80kWh energy storage configuration supports a maximum discharge current of 157A, ensuring rapid and stable power delivery for high-demand appliances such as air conditioners, heat pumps, or EV chargers.
Quality Control
1. Raw material quality control: all raw materials will be fully inspected before production. Only those that pass the inspection can be used for the next production step.
2. During production, Each process is supervised by QC staff, who will conduct production inspections from time to time. Any problems found will be solved as soon as possible.
3. QC before shipment: all products will be subjected to aging tests, and each batch of goods needs to provide a full-process quality control report, and no defects are allowed.
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FAQ
Q: What is the temperature range for operating the battery?
A: The operating temperature range of our batteries is typically between -10°C to 55°C.
Q: Are energy storage batteries suitable for use in cold temperatures?
A: The operating temperature range of our batteries is typically between -10°C to 55°C,we won't recommend to use in temperature lower -10°C.
Q: Is there a warning function for low battery levels in the battery?
A: The battery can be equipped with an early warning function, providing real-time monitoring of battery parameters and prompt notifications to users for timely resolution of any issues.
Q: How do I activate the battery?
A: Before utilizing your battery for the first time, it is important to activate it by charging and discharging with a current greater than 1A, and to measure the terminal voltage to confirm it is functional. To prolong the battery's lifespan, it is recommended to disconnect it from the system before prolonged storage. After 24 hours, the battery will enter its automatic mode.
Q: Do the energy storage batteries charge quickly?
A: The speed of charging and the charging efficiency of energy storage batteries varies based on the specific model and its specifications. Typically, high-quality batteries have a faster charging speed and a more efficient charging process.
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