Abstract: To address the technical challenges in cluster-based operation of distributed energy storage systems, including lagging energy efficiency optimization, difficulties in cross-site coordination, and high operational and maintenance costs, a multi-site centralized control solution based on a cloud-edge collaborative architecture is proposed. A cloud-edge integrated technical architecture capable of multi-station monitoring and maintenance from a cluster perspective is presented. Then, the business functional framework for the cloud-edge collaborative energy management platform is defined based on national standards, industry regulations, and domain knowledge, ensuring it meets requirements for full-station coverage, comprehensive equipment and complete data acquisition. The developed cloud-edge collaborative energy management platform was deployed for operation at a 5 000 kW/10 000 kW·h energy storage power station. Engineering practice demonstrates that the platform achieves real-time data acquisition, operational monitoring, intelligent alerts, strategy coordination, fault diagnosis,and energy optimization for the storage facility. This validates the feasibility and effectiveness of both the architectural design and the charging/discharging strategies.

    Key words: new type power system; distributed energy storage system; cloud platform; energy management; cloud-edge collaborative