The Use of Liquid Cooled Chillers in Data Centers

Data centers house vast amounts of servers and electronic equipment that generate significant amounts of heat during operation. If not properly managed, this heat can lead to equipment failures, downtime, and costly disruptions in services. Industrial liquid cooled chillers are essential in ensuring that data centers maintain optimal operating conditions by providing efficient and reliable cooling. Here’s a detailed look at how these chillers are utilized in data centers:

1. Cooling of IT Equipment

The primary function of industrial liquid cooled chillers in data centers is to remove heat from servers, routers, storage devices, and other critical IT infrastructure. Excessive heat can negatively impact the performance and lifespan of these devices, so maintaining the right temperature is crucial.

Role of Liquid Cooled Chillers in IT Equipment Cooling:

• Heat Extraction from Air: In many data centers, chillers are part of a broader cooling system that uses air handling units (AHUs) or computer room air conditioning (CRAC) systems. The air in the server rooms, heated by the equipment, is circulated through heat exchangers that are cooled by chilled water from the liquid cooled chiller. The cooled air is then recirculated into the server rooms to maintain the necessary operating temperature.
• Precision Cooling: Data centers require precision cooling to maintain a stable temperature, typically around 18-27°C (64-81°F), depending on equipment specifications. Industrial chillers allow for fine-tuned temperature control, ensuring that IT equipment operates within this optimal range.
• Scalable Cooling for High-Density Servers: As data centers continue to evolve, there is an increasing trend toward high-density server racks, which generate even more heat in a smaller space. Industrial liquid cooled chillers can scale up their cooling capacity to handle these higher heat loads, ensuring reliable performance even in densely packed environments.

2. Water-Cooled vs. Air-Cooled Systems

Data centers use both water-cooled and air-cooled systems for cooling. In large-scale operations, water-cooled systems with industrial chillers are often preferred due to their superior energy efficiency and ability to handle larger heat loads.

Role of Liquid Cooled Chillers in Water-Cooled Systems:

• Water as a Cooling Medium: In water-cooled systems, chilled water is circulated through pipes that run alongside or within the server racks. This chilled water absorbs the heat generated by the equipment and carries it away to the industrial chiller, which then cools the water before recirculating it.
• Efficient Heat Removal: Liquid cooled chillers are more efficient than air-cooled systems, especially in larger data centers. They can remove more heat from the system with less energy consumption, making them ideal for facilities looking to reduce their operational costs and environmental impact.
• Use of Cooling Towers: Liquid cooled chillers often work in conjunction with cooling towers, where the heat absorbed by the water is released to the atmosphere. This setup is highly efficient, particularly in large data centers that require significant cooling capacity.

Image from Genemco 
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3. Redundancy and Reliability

Data centers must operate continuously with minimal downtime, which makes redundancy in cooling systems critical. Industrial liquid cooled chillers are often part of a redundant cooling system to ensure uninterrupted operations even in the event of equipment failure.

Role of Liquid Cooled Chillers in Providing Redundancy:

• N+1 or 2N Redundancy: Many data centers use an N+1 or 2N redundancy configuration for their cooling systems. This means that there is at least one additional chiller beyond what is necessary for normal operations. In the event that one chiller fails or needs maintenance, the redundant unit can take over, ensuring that there is no disruption in cooling.
• Critical Backup for IT Infrastructure: Given the mission-critical nature of data centers, where even a few minutes of downtime can result in significant financial losses or data loss, the reliability of the chiller system is paramount. Industrial liquid cooled chillers are designed for long-term reliability, with backup systems and fail-safes in place to ensure continuous operation.

4. Energy Efficiency and Cost Savings

Cooling systems account for a significant portion of a data center’s energy consumption. Industrial liquid cooled chillers are often preferred because they are more energy-efficient than air-cooled systems, especially in larger facilities.

Role of Liquid Cooled Chillers in Enhancing Energy Efficiency:

• Higher Coefficient of Performance (COP): Liquid cooled chillers typically have a higher COP compared to air-cooled systems, meaning they provide more cooling output for the same amount of energy input. This translates to lower energy consumption and reduced operational costs for data centers.
• Free Cooling and Economization: In cooler climates or seasons, liquid cooled chillers can take advantage of free cooling or economization. This process involves using naturally cold outside air or water to cool the data center without relying as much on mechanical chillers. By reducing the load on the chillers, data centers can save energy and extend the lifespan of their cooling equipment.
• Water-Side Economization: In some data centers, a water-side economizer is used in conjunction with liquid cooled chillers. This system allows the chiller to bypass some or all of the mechanical cooling when outdoor temperatures are low enough, reducing the energy needed to maintain the data center's operating temperatures.

5. Environmental Control and Air Quality

In addition to cooling, industrial chillers in data centers can also help regulate humidity and improve air quality. Proper humidity control is essential to prevent static electricity and condensation, both of which can damage sensitive electronic equipment.

Role of Liquid Cooled Chillers in Environmental Control:

• Humidity Control: Maintaining the right humidity levels in a data center is crucial to prevent equipment damage. Chillers help manage the moisture content in the air by controlling the temperature, which in turn affects the air’s humidity level. This helps reduce the risk of static discharge, which can harm sensitive components.
• Air Filtration: Some data center cooling systems that use chilled water also incorporate air filtration systems. These systems help remove dust, contaminants, and other particles from the air, ensuring that the environment remains clean and conducive to long-term equipment performance.

6. Modular and Scalable Cooling Solutions

With the growing demand for cloud computing and data storage, many data centers are expanding their operations, often at a rapid pace. Industrial liquid cooled chillers offer modular and scalable cooling solutions, making them ideal for both small and large facilities.

Role of Liquid Cooled Chillers in Modular Data Centers:

• Modular Chillers for Growth: As data centers expand, industrial chillers can be added incrementally to meet increasing cooling needs. This modular approach allows data centers to scale their cooling infrastructure without overinvesting in capacity they may not yet need.
• Efficient Cooling for Edge Data Centers: In addition to large-scale facilities, smaller edge data centers—often located close to end-users to reduce latency—can benefit from liquid cooled chillers. These modular chillers provide the flexibility to cool smaller sites efficiently, without the need for massive infrastructure.

Image from Genemco
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7. Green Initiatives and Sustainable Cooling

As sustainability becomes a growing concern, data centers are increasingly focused on reducing their environmental impact. Industrial liquid cooled chillers contribute to this by offering energy-efficient and environmentally friendly cooling solutions.

Role of Liquid Cooled Chillers in Green Data Centers:

• Reduced Carbon Footprint: By improving energy efficiency and reducing the reliance on mechanical cooling, liquid cooled chillers help data centers reduce their carbon footprint. This is particularly important for companies looking to meet environmental targets or achieve certifications such as LEED (Leadership in Energy and Environmental Design).
  Moreover, purchasing high-quality used industrial liquid cooled chillers further reduces the carbon footprint of data centers. Companies like Genemco have been reselling industrial refrigeration equipment, including liquid cooled chillers, for over 35 years. 
• Use of Renewable Energy for Cooling: Some data centers are incorporating renewable energy sources, such as wind or solar power, into their chiller systems. Liquid cooled chillers can be powered by these renewable sources, further reducing the environmental impact of cooling operations.
  
  

Industrial liquid cooled chillers are critical to the efficient and reliable operation of data centers, providing the precise temperature control needed to prevent equipment failures and downtime. From cooling high-density servers to offering scalable and modular solutions for expanding data centers, these chillers help optimize energy efficiency, enhance reliability through redundancy, and contribute to sustainable operations. As data centers continue to grow and evolve, liquid cooled chillers remain an indispensable component in ensuring long-term operational success.