★ Automotive Grade LiFePO4 cells that meet UL /CE certification standards
★ Long cycle life,slow degradation, and excellent performance
★ Highly integrated system, including BMS, EMS,PCS, temperature control, fire protection system and data monitoring
★ Three-tier BMS architecture ensures a safe and reliable system
★ Supports local and remote monitoring
★ Customizable, module design, flexible configuration, and easy expansion
The ESSC 1000K Commercial Energy Storage System: Designed to meet varying project electricity demands, the battery component of this container energy storage system is equipped with diverse battery clusters. It features an integrated design with Power Conversion System (PCS), Energy Management System (EMS), Battery Automation Unit (BAU), and other control units, ensuring a seamless "Plug and Play" experience for users.
The ESSC 1000K Commercial Energy Storage System caters to modern demands. They are widely deployed in factories, malls, communities, hospitals, and EV charging stations. With modular design and customization options, we adapt to various customer needs. Prioritizing safety, we utilize high-energy-density automotive-grade lithium iron phosphate battery cells, ensuring reliability and long-term economic benefits with up to 5,000 cycles. Leveraging GREEN POWER's robust R&D and manufacturing capabilities, we deploy customized containerized energy storage solutions worldwide, perfectly tailored to complex project power requirements.
The ESSC 1000K Commercial Energy Storage System offers a cloud-based platform that centrally manages widely dispersed power stations and microgrids. This addresses the need for remote monitoring and maintenance in scattered locations. The platform efficiently handles data collection and utilization for distributed sites. Equipment communicates via MQTT protocol through smart gateways, enabling remote monitoring, parameter configuration, OTA upgrades, and fault monitoring. It ensures equipment stability and supports time-of-use strategies, optimizing economic benefits based on regional electricity prices, peak shaving, and load balancing.
