Peak Shaving Mode:Charge the battery during off-peak hours (e.g., at night) and discharge during peak demand periods to reduce electricity bills and relieve grid pressure.

Grid Support Mode:Automatically adjusts charging and discharging to respond to grid frequency or load fluctuations in real-time, helping maintain grid stability and improve power quality.

Backup Power Mode:In case of grid failure or blackout, the system instantly switches to battery discharge mode to supply backup power to critical loads, ensuring uninterrupted operation.

Renewable Integration Mode:Works with solar or wind systems to store excess energy during overproduction and release it during shortages, improving self-consumption and enabling off-grid or hybrid applications.

Peak Shaving and Valley Filling Mode:Charges the battery during periods of low electricity demand or low prices (e.g., at night) and discharges stored energy during periods of high demand or higher prices (e.g., during the day). This mode helps reduce peak loads on the grid, smoothens the load curve, and lowers electricity costs.

Frequency Regulation and Load Balancing Mode: :Rapidly responds to fluctuations in grid frequency and load by adjusting the battery’s charge and discharge power, thereby maintaining grid stability. This mode is typically used to support instantaneous grid balancing and prevent significant frequency deviations.

Backup Power Mode:In the event of a primary power failure or grid outage, the storage system automatically switches to discharge mode, providing backup power to critical loads or the entire system, ensuring continuous operation of equipment and facilities.

Self-Consumption Mode with PV or Wind power: In conjunction with renewable energy generation (such as solar or wind power), the system stores excess energy during periods of overproduction and utilizes the stored energy when production is insufficient. This mode increases the self-consumption rate of renewable energy and reduces dependency on the grid.

ELocal Utilities:Need flexible load adjustment, improved grid efficiency, and regional energy balancing.

EProject Developers:Integrate battery storage with wind or solar projects to enhance project profitability and dispatchability.

EHealthcare Facilities:Critical equipment cannot tolerate power interruptions, requiring highly reliable and fast-responding backup power systems.

ERemote Areas:Lack access to stable grids or face high electricity costs, requiring independent and self-sufficient energy systems.

Advance:Support both liquid-cooling and air-cooling solution;

Top quality:Always first class supplier of battery cells and PCS inverters;

Smart:Completed monitoring platform and multi work mode;

Extreme Safety:Fire Extinguishing, Camera, temperature sensors, smoke sensor, water immersion sensor