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A Data Centre Chiller is a cooling system that is used in a data centre to extract heat from one element and deposit it in another.
Data centre chillers are used by industrial facilities to cool the water used in their heating, ventilation, and air-conditioning (HVAC) equipment.
Data centre cooling works by removing heat from the air and replacing it with cooler air. This is normally accomplished by venting hot air outside and then bringing outside air in, cooling it, and circulating it around the structure.
The South Korea Data center water-cooled chiller system market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The deployment of 5G technologies, advanced technologies such as IoT, big data, AL & ML, and digitalization are driving the region’s data centre cooling market.
Facilities in the region have begun to use liquid immersion cooling technology. For example, OneAsia launched the first liquid immersion cooling system in its Asia-Pacific data centres.
Furthermore, free cooling approaches will continue to dominate the market for evaporative coolers, free cooling chillers, air-side economizers, and water-side economics.
During the forecast period, challenges such as increasing water consumption and increased electricity usage due to increased rack capacity will drive demand for alternative and efficient cooling solutions in the APAC data centre cooling market.
Because of the tropical climate in Southeast Asian countries, most facilities are using liquid-based cooling systems.
In its Loyang facility, for example, ST Telemedia Global Data Centres has developed a chilled water system with cooling towers with N+1 redundancy.
Facilities have cooling standards that govern the design, implementation, and operation of cooling systems and equipment.
ASHRAE publishes standards and recommendations for the installation of cooling systems. Many modern facilities are constructed in both high-density and low-density areas.
High-density settings may accommodate a rack power density of up to 20 kW, and potentially more using liquid immersion and direct-to-chip cooling.
