General information
The Huawei LUNA2000-215-2S10 energy storage system is an industrial solution for storing electrical energy based on LiFePO4 batteries. An improved version of LUNA2000-200kWh-2H1 with increased capacity up to 215 kWh and a hybrid cooling system.
Key advantages
Energy storage systems combine high efficiency, reliability and modern management technologies. With an efficiency of 91.3%, energy losses are minimised, and fast charging allows you to reach a full charge in just 2 hours. The batteries can withstand up to 7,000 charge and discharge cycles, ensuring long-term operation, while LiFePO4 technology and built-in protection systems guarantee maximum safety.
The systems are easily integrated with the FusionSolar platform, enabling intelligent control and real-time monitoring.
Areas of application
The solution is suitable for commercial facilities (offices, shopping centres, hotels, medical facilities) and industrial enterprises (factories, warehouses, data centres). They are also effective at energy facilities — solar power plants and backup power systems.
Economic efficiency
The use of such systems allows reducing electricity costs by up to 70%, and the payback period is only 3–5 years. After 7,000 cycles, the batteries retain up to 80% of their capacity, and the manufacturer provides a 10-year warranty, confirming the reliability and durability of the equipment.
Installation and maintenance
Installation requires a three-phase power supply (380/400/415V), a room ventilation system and grounding in accordance with the Electrical Installation Regulations. The foundation must be able to withstand loads of up to 3 tonnes.
Maintenance includes regular parameter checks, cleaning of ventilation ducts and inspection of electrical connections.
Conclusion
The Huawei LUNA2000-215-2S10 energy storage system is a technologically advanced solution for industrial and commercial applications. The system's high efficiency, reliability, and durability ensure optimal prices and quality for facilities with high requirements for power supply stability.