Immersion cooling of power devices

From high-speed electric trains to wind turbines, to electric motors in heavy bulldozers and personal electric vehicles (EVs),The ability to control voltage accurately on a large scale makes many efficient and powerful innovative ideas possible.However, the devices that manage this process, such as power inverters, thyristors, variable speed drives and other power devices, need to be efficiently cooled.

Glacier coolant modified polyfluorochemicals can be used as an ideal immersion cooling working fluid for variable voltage power devices.These insulating liquids can safely contact electronic equipment, and can achieve efficient and uniform cooling of power devices by using single-phase or two-phase immersion cooling.These liquids have a wide operating temperature range, excellent material compatibility and easy maintenance, making the immersion cooling method based on the Glacier coolant  modified polyfluorochemicals an excellent alternative to the air, water or oil cooling method. The product achieves all of these properties without compromising on worker safety or environmental sustainability.

Application of Glacier coolant Modified Polyfluorochemicals in the Industry

The progress of power devices has pushed the whole world forward.Our modified fluoride solution can keep these equipment cool by simple, efficient and high-performance immersion cooling.Compared with the existing cooling methods, the immersion cooling of glacier coolant  modified fluoride solution has obvious advantages. It can be considered for future power device applications, such as high-speed railways, heavy machinery, wind turbines, high-speed elevators, and automobiles.

Data center cooling

The rise of data economy has fundamentally changed people’s lifestyle;Moreover, the current world is always online and highly integrated, which is driving enterprises to operate at a faster and faster speed.Almost all aspects of people’s daily life depend on the tasks running inside the data center.However, the operation of these data centers requires high costs in terms of energy consumption, water use, floor space, etc.Obviously, what we need is a faster, smarter and more sustainable data center. By transferring the data center from traditional cooling mode to submerged liquid cooling using glacier modified polyfluorochemicals, enterprises can manage the impact on costs and natural resources.

Glacier coolant

Glacier coolant modified polyfluorochemicals can be used in the following systems:

Large scale data center

No matter where you decide to locate, you can deploy a data center with a more consistent cooling infrastructure worldwide.Reducing or eliminating air cooling infrastructure (such as chillers, telecommunications/network equipment, facility floor space, etc.) to a greater extent can meet new workload demands while reducing capital expenditure.With the improvement of cooling efficiency, the cost of special power required for auxiliary cooling will be reduced.Reduce the power efficiency index (PUE) and the use of water resources. When the power efficiency index is as low as 1.03, a more energy efficient and sustainable data center can be built.

Supercomputing Center

By increasing power efficiency, immersion cooling can now support new or more compute intensive workloads that are difficult to cool in an efficient and cost-effective manner with traditional cooling solutions. Reduce operating expenses. With the improvement of cooling efficiency, the cost of special power required for auxiliary cooling will be reduced.

Enterprise High Performance Computing

Support new or more compute intensive workloads that are difficult to cool in an efficient and cost-effective manner with traditional cooling solutions. Lower latency. Delay sensitive workloads can be run in more intensive, space optimized data centers, or closer to users’ server cabinets to help reduce latency. Improve hardware reliability. The lower chip junction temperature, the reduction of temperature fluctuations and hot spots improve the operation reliability; At the same time, the necessary moving parts in traditional cooling methods are reduced to a large extent, thereby reducing common hardware failures.