The ACADIE NEW ENERGY (ANE) 1C integrated liquid-cooled energy storage system is adopted to replace the UPS. Only 1/4 of the battery capacity (15 minutes of power supply) needs to be reserved to facilitate the start-up and connection of the diesel generator during a power outage. That is, the depth of discharge of the system is controlled at 25%, and the remaining 75% of the battery capacity can be used for peak-valley arbitrage of daily power consumption in the data center.

Data centers will be equipped with diesel generators to deal with power outages. However, it takes some time from the occurrence of a power outage to the activation of the diesel generators. Therefore, an UPS (Uninterruptible Power Supply) needs to be installed to support for 15 minutes, so that the diesel generators can be activated and switched on. But generally, the UPS power supply uses lead-acid batteries as the storage medium, which have a short lifespan and need to be replaced frequently.

The ACADIE NEW ENERGY (ANE) 1C charging and discharging integrated liquid-cooled energy storage system is adopted instead of the UPS. Only 1/4 of the power (15 minutes of power supply) needs to be retained, which is convenient for supporting the startup and connection of the diesel generator when the power grid is out of service. That is, the discharge depth of the system is controlled at 25%, and the remaining 75% of the power can be used for peak-valley arbitrage of the daily electricity consumption in the data center.

• Lithium battery replaces traditional lead-acid battery

The service life of lead-acid batteries is 2 years, and they require regular maintenance and replacement. Lithium batteries can last for over 10 years, and the overall cost of using lithium batteries is much lower than that of lead-acid batteries, which can also reduce environmental pollution.

• Peak-valley arbitrage

The income from the price difference between peak and valley electricity in the energy storage system is substantial.

• Additional income

Connecting to the VPP virtual power plant and accepting grid dispatching can bring additional income.

This energy storage AC/DC bidirectional converter adopts modular design, advanced control algorithm to realize multi-machine parallel and has reactive power compensation function. The power level of the parallel system covers 130kW ~ 1.3MW. The series of products have both local monitoring and EMS system remote scheduling functions, with excellent load adaptability and power grid adaptability, at the same time, independent air duct design makes it can effectively cope with a variety of complex application environment, the system is safer, reliable, economic, environmental adaptability.

ACADIE NEW ENERGY 261kWh integrated liquid cooling energy storage system adopts the All-In-One design concept, integrating the power distribution system, power conversion system, battery system, EMS system, temperature control system, and fire protection system. It has a small footprint and can be multi-cabinet and cabinet-connected to achieve larger capacity expansion. The battery system adopts three-dimensional surround liquid cooling for heat dissipation, with a heat dissipation effect far superior to the traditional bottom liquid cooling, ensuring the cycle life of the battery cells to the greatest extent. The power conversion part uses the third-generation SiC components, with an energy conversion efficiency 1% to 2% higher than that of the conventional system, bringing higher economic benefits to the operators and shortening the investment recovery period. This system can be widely applied in industrial and commercial parks, charging and discharging stations, distributed photovoltaic power stations, and other scenarios.

The integrated air-cooled energy storage system adopts the All-In-One design concept, integrating the power distribution system, power conversion system, battery system, EMS system, temperature control system, and fire protection system. It has a small footprint and can be connected in multiple cabinets to achieve larger capacity expansion. The battery part of the system adopts a four-level fire protection and safety design, ensuring the highest system safety; the power conversion part uses the third-generation SiC components, with an energy conversion efficiency 1% to 2% higher than that of conventional systems, bringing higher economic benefits to the operators and shortening the investment recovery period. This system can be widely applied in industrial and commercial parks, charging and discharging stations, distributed photovoltaic power stations, and other scenarios.

The distributed modular energy storage system is designed by ACADIE NEW ENERGY (ANE SINY) for industrial and commercial electricity usage scenarios. The system consists of a power cabinet and a battery cabinet, with flexible configuration. The number of batteries and power cabinets can be flexibly configured according to the requirements of the application scenarios to achieve MW-level energy storage. It can also be connected with photovoltaic, charging terminal and other functional modules as needed, suitable for various industrial and commercial energy storage application scenarios, and capable of functions such as peak shaving and valley filling, dynamic expansion, participation in grid dispatch, and emergency power supply.