Is Temperature Control and Energy-Saving Engineering the "Cooling Revolution" for High-Density Data Centers?
Publish Time: 2025-12-29
With the rapid development of artificial intelligence, large-scale model training, and high-performance computing, data centers are evolving at an unprecedented pace towards "high density, high computing power, and high energy consumption." The power of a single server rack has jumped from the traditional 3-5kW to 30kW or even over 100kW. Traditional air-cooling methods are approaching their physical limits—not only are they unable to effectively remove the concentrated heat generated by chips, but the surge in fan power consumption and overloaded air conditioning systems also lead to a sharp deterioration in overall energy efficiency. Temperature control and energy-saving engineering, with liquid cooling technology at its core, is sparking a profound "cooling revolution."
1. Liquid Cooling: The Inevitable Choice for Solving the High-Density Heat Dissipation Dilemma
The specific heat capacity of liquids is far higher than that of air, and their thermal conductivity can be more than 1000 times that of air cooling. By directly delivering coolant to the heat source, liquid cooling systems can achieve precise "point-to-point" temperature control, significantly reducing chip operating temperatures and improving computing stability and lifespan. More importantly, liquid cooling significantly reduces reliance on large fans and chillers, potentially lowering the data center PUE to below 1.1, far exceeding the typical 1.5 or higher level of air-cooled data centers.
2. Recomm Technology's Full-Stack Capabilities: From Precision Components to System Integration
Recomm Technology understands that the success or failure of a liquid cooling system hinges on the details. The company focuses on four core capabilities to build a complete technology closed loop:
Precision Machining: Employing advanced processes such as five-axis CNC machining and micro-hole laser processing, the company manufactures key components such as cold plates, quick-connect fittings, and manifolds with high consistency and zero leakage risk, ensuring structural reliability under high pressure and long-term cyclic conditions;
Coolant R&D and Selection: Developing specialized coolants with high thermal conductivity, low viscosity, high insulation, and environmentally friendly biodegradability for different application scenarios, and providing full lifecycle compatibility assessments;
Main and Auxiliary System Integration: Connecting the entire chain from IT equipment to cooling infrastructure, achieving integrated design and intelligent linkage of liquid cooling circuits, pump sets, heat exchangers, and control systems;
High-Efficiency Energy Management: Combining AI algorithms and real-time sensor data, dynamically adjusting flow rate, temperature, and pump speed to achieve "on-demand cooling" and maximize energy savings.
3. Energy Saving Beyond Cooling: Building a New Green Computing Ecosystem
Recommended Technology's temperature control solution is essentially a system engineering project aimed at energy saving. Through liquid cooling, it not only reduces the power consumption of IT equipment itself but also reduces energy expenditures for auxiliary systems such as air conditioning, humidification, and dehumidification. In a large-scale intelligent computing center project, Ruikang's liquid cooling system helped the client save over 8 million kilowatt-hours of electricity annually, equivalent to reducing carbon emissions by more than 6,000 tons. This is not only cost optimization but also a concrete response to the "dual-carbon" strategy.
4. Leading the Industry, Creating a Sustainable Future
As a pioneer in liquid cooling technology, Ruikang Technology continuously invests in R&D, breaking through industrialization bottlenecks such as material compatibility, rapid deployment, and standardized operation and maintenance. The company has established in-depth cooperation with many leading server manufacturers, cloud service providers, and design institutes, driving liquid cooling from a "high-end option" to a "mainstream standard."
In the data center "cooling revolution" driven by temperature control and energy-saving engineering, Ruikang Technology is using technological innovation as its pen and green efficiency as its ink, working with industry partners to jointly draw a new blueprint for the sustainable development of the intelligent world—ensuring that every kilowatt-hour of electricity is used for computing, not heat dissipation; ensuring that every burst of computing power coexists and prospers with the Earth.
