Application of liquid cooler

As an efficient thermal management technology, liquid cooler have been widely used in multiple high heat density scenarios. Their core value lies in achieving a much higher heat conduction efficiency than air through liquid media, ensuring stable equipment operation and reducing energy consumption.
1、 Data Centers and AI Servers: Key Solutions to Address the 'Fever' of Computing Power
As the parameters of AI large-scale models move towards the trillion level, server power density is rapidly increasing, and traditional air cooling is approaching its physical limit. liquid cooler have become the core technology for solving the heat dissipation problem of high-density computing power.
Cold plate liquid cooling: The coolant indirectly absorbs heat through the cold plate attached to the CPU/GPU, suitable for existing data center renovation, with high commercial maturity, accounting for more than 95% of the domestic liquid cooling market share.
Immersion liquid cooling: By completely immersing the server in insulating cooling liquid, the heat dissipation efficiency is higher, and the PUE can be reduced to 1.05, which is close to the theoretical limit and suitable for building large-scale data centers.
Policy driven popularization: China's "East Data West Computing" project requires the construction of large data centers with PUE ≤ 1.25 and western nodes ≤ 1.2, promoting the accelerated penetration of liquid cooling.
2、 New Energy Vehicles: The 'Temperature Guardian' of Batteries and Supercharging Systems
In electric vehicles, liquid cooler are the core components that ensure the safety and lifespan of power batteries.
Battery thermal management: By circulating the coolant, the temperature of the battery pack is stabilized within a safe range of 20-40 ℃, avoiding thermal runaway while balancing the temperature difference between the battery cells and extending their service life.
Liquid cooled overcharging technology: supports fast charging with high current above 500A, and the coolant flows directly through the charging gun cable to effectively control temperature rise, achieving an efficient experience of "charging for 5 minutes and driving for 100 kilometers".
3、 Traditional Industry and Engine Systems: Mature and Reliable Temperature Control Mechanisms
In fuel vehicles and industrial equipment, liquid cooler have long been responsible for critical heat dissipation tasks.
Engine cooling system: Using coolant to circulate in the engine water jacket, absorbing heat and releasing it through the radiator to maintain the engine at optimal operating temperature, reducing wear and emissions.
Industrial equipment heat dissipation: In high-power electronic devices, generator sets, and other scenarios, liquid cooling systems can efficiently remove heat, improve equipment reliability and operational efficiency.