首页即时动态海尔AIDC方案，冷热两端绿色高效，赋能算力生态

海尔AIDC方案，冷热两端绿色高效，赋能算力生态

来源：家居百科时间：2026年04月15日 10:03

AI算力竞赛与AIDC冷却系统创新

Global AI computing power competition is in full swing. As the core infrastructure carrying intelligent computing power, AIDC (AI and Data Center) is entering a golden age of explosive growth. With the acceleration of chip iteration and the continuous increase of power per cabinet, the powerful computing power brings greater heat dissipation problems, bringing unprecedented uncertainty to the AIDC cooling system. How to support high-density computing power deployment and future evolution?

From April 9th to 10th, at the 2026 Beijing Open AI Infra Summit, Haier HVAC Commercial brought its AI zero-carbon technology and full-scenario solutions to the forefront, showcasing its first-mover advantage in the AIDC field with the differentiated advantage of the "air-liquid source" integrated solution.

High computing power fever difficult to retreat?

"Air-liquid source" for cooling

"The design life of AIDC is usually 10-15 years, while the iteration cycle of GPU chips is only 1-2 years. The cooling system must reserve expansion space for the future." Haier, relying on its globally leading magnetic levitation technology, has innovatively developed a "air-liquid source, suspended leading" full-scenario solution for intelligent computing centers, achieving free switching between air cooling and liquid cooling, with strong flexibility and adaptability.

For different scenarios, Haier's solution implements precise measures. For high heat density cabinets for AI training, liquid cooling CDU plus dual-source wind wall targeted cooling is adopted, with a full series of cooling capacity covering 30kW~1700kW, intelligent and accurate cooling; for general computing and edge computing rooms, the distributed natural cold magnetic levitation scheme efficiently utilizes natural cold, saving 70% of space, 20% of electricity costs, and 10% of initial investment; for renovation projects, the magnetic levitation PRO phase change multi-split system is used, with three cooling modes for intelligent switching, ensuring 7x24 stable operation and saving space and electricity.

For special scenarios, Haier's solution also shows its core adaptability. In water-scarce areas, wind cooling magnetic levitation achieves water-free cooling, solving resource constraints; in rapid deployment scenarios, water cooling magnetic levitation integrated control shortens the construction period, adapting to the fast construction rhythm of AIDC. More importantly, the magnetic levitation architecture reserves "evolution interfaces", which can currently adapt to mainstream high-temperature liquid cooling. In the future, when the chips are upgraded and the liquid cooling tends to be low temperature, there is no need to replace the cold source for seamless switching, matching the long-term use needs of AIDC.

The value of technological innovation lies not in paper talk, but in the blossoming of the land. In the national supercomputing center, a customized system integration of 27 units of 1200RT water cooling magnetic levitation units with a total cooling capacity of 110MW was tested, with PUE≤1.2; after replacing the traditional air cooling screw in a data center in Malaysia, 48 units of air cooling magnetic levitation units reduced PUE to 1.38, with the host COP reaching 4.5, passing the验收 of 8 professional teams at one time, and setting an industry energy efficiency benchmark with its hard-core strength.

"Electric tiger" turns into "energy treasure"?

Waste heat recovery is the key path

Cooling is just the first step to solve the high heat of computing power. How to convert a large amount of waste heat into valuable resources is the key to building a green computing power ecosystem.

Waste heat recovery is the core抓手 for the transformation of data centers from "energy-consuming大户" to "regional energy hub". Currently, the large-scale landing of data center waste heat recovery still faces multiple bottlenecks: mature cases are mostly limited to a small amount of self-use within the park, and there are spatial and temporal mismatches in supply and demand; in the wind cooling era, the quality of waste heat is low, and it has poor compatibility with traditional high-temperature municipal pipe networks and high investment costs; cross-industry collaboration barriers are strict, and policy standards and carbon emission accounting mechanisms are not perfect, restricting the commercial promotion.

Haier's breakthrough strategy lies in relying on magnetic levitation high-temperature heat pumps to create a full-chain, actionable waste heat recovery solution, which efficiently raises the low-quality waste heat of data centers to 67-75℃, with a single machine capacity of up to 10MW, COP＞5, saving energy by 35%, and can stably output 120℃ high-temperature steam, covering a variety of scenarios such as industry and people's livelihood, taking into account the 25-year ultra-long service life and green low-carbon attributes. At the same time, it deploys the 5th generation low-temperature district heating and cooling pipeline of DHC, realizing a bidirectional cold and hot cycle of 10-30℃ ultra-low ambient temperature, significantly reducing the investment threshold and adapting to small and medium-sized regions in the north. With the popularization of liquid cooling technology and the deepening of the dual carbon policy, Haier builds a "green electricity-AI computing power-waste heat" energy composite utilization complex, providing a feasible Chinese solution for the industry to "turn waste into treasure".

In the future, Haier HVAC Commercial will focus on the specific needs of AIDC, and ensure the green and efficient development of the global computing power industry with continuous technological iteration and ecological collaboration.