This solution dissipates heat by installing a liquid cooling backplane on the back of the server cabinet and cooperating with an independent chiller. The coolant circulates between the backplane door and the chiller, taking away the heat of the server to achieve efficient heat dissipation. Each cabinet is cooled independently and can be flexibly configured, making it suitable for high-load data center environments. The system is easy to install and maintain, ensuring the stable operation of the server.

This solution installs a liquid-cooled backplane on the back of the server cabinet and uses an independent chiller for heat dissipation. The coolant circulates between the backplane door and the chiller to take away the heat of the server, achieving efficient heat dissipation. Each cabinet is cooled independently and can be configured flexibly, making it suitable for high-load data center environments. The system is easy to install and maintain, ensuring the stable operation of the server.

This solution involves installing backplanes on the backs of multiple server cabinets and using two chillers for heat dissipation. The coolant circulates between multiple backplanes and the two chillers to disperse heat and improve heat dissipation efficiency. This configuration not only enhances the cooling capacity but also provides a redundant design to ensure the reliability and stability of the system. It is suitable for large - scale, high - load data centers. The system can be flexibly expanded and is easy to maintain, ensuring the continuous and stable operation of the servers.