The “Data Center Liquid Cooling Market by Component (Solution and Services), End User (Cloud Providers, Colocation Providers, Enterprises, and Hyperscale Data Centers), Data Center Type, Type of Cooling, Enterprise, and Region – Global Forecast to 2028,” report has meticulously defined, segments, and forecast the data center liquid cooling market – considering factors such as components, data center types, cooling methods, end users, enterprises, and geographical regions.

It has furnished a comprehensive understanding of the key drivers, constraints, opportunities, and specific challenges that exert influence on the market’s growth trajectory.

Relevance of liquid cooling

Liquid cooling is a potent solution for addressing the cooling challenges posed by high-density servers. Liquid is an efficient conductor of heat, surpassing air by over 3,000 times and consuming less energy in the process. This capability allows data centers to accommodate higher densities, making it particularly relevant. Liquid cooling can be implemented using inductive techniques like cold plates or immersion cooling, where heat transfer occurs on the surface of electronic components.

Moreover, liquid cooling provides the flexibility and scalability needed to meet evolving computational demands as data centers expand and evolve. Its versatility allows for the accommodation of diverse rack configurations, server setups, and form factors, making it suitable for future data center expansions and technological advancements.

The growing hub

During the forecast period, the Asia-Pacific region is poised to emerge as the swiftest-growing hub for the data center liquid cooling market. This trend is attributed to the region’s increasing recognition of the significance of sustainable practices and environmentally-friendly data centers. Liquid cooling solutions are gaining favour over traditional air-cooling methods due to their potential to enhance energy efficiency and reduce ecological footprints. The growing emphasis on sustainability in the region is driving the adoption of liquid cooling.

The services segment to grow

Data centers rely on service providers to quickly identify and fix problems in the case of system faults or malfunctions. Finding the source of issues, carrying out fixes or component replacements, and returning the liquid cooling system to regular operation are all parts of troubleshooting services. For minimizing downtime and ensuring data center availability, quick response times and proficiency in diagnosing complicated cooling-related issues are essential.

The hyperscale data centers

The desire for seamless communication between areas is rising, fuelling the expansion of hyperscale data centers. Liquid cooling fits in with the increased attention being paid to environmental sustainability.

Hyperscale data centers can lessen their ecological impact and support green initiatives by using less energy and cooling more effectively. In addition, waste heat can be recovered and used again due to liquid cooling, significantly improving the data centers’ energy efficiency.

IT and Telecom segment

Data centers are essential to the telecom industry for several crucial tasks, including the support of network hardware, communication servers, and data storage. To prevent overheating and guarantee consistent performance, liquid cooling systems assist with controlling the temperature of telecom infrastructure parts like routers, switches, and optical equipment.

The IT and telecom industries may efficiently regulate heat, optimize energy usage, boost performance, and support the demanding computing needs of numerous applications and services by implementing data center liquid cooling technologies.

Cold plate liquid cooling will draw the maximum attention

To move heat away from electronic components, cold plate liquid cooling uses metal plates in close proximity to the components. Traditional cooling techniques may need help effectively dissipating heat as electrical gadgets and components become more potent and tightly packed.

High-power and high-density electronic components can be effectively cooled using cold plate liquid cooling, which provides a direct and efficient heat transfer mechanism.


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