Is Rear Rack Cooling Right For Your Data Center Operations?

The simplest way to cool down a data center involves the installation of air exchangers that generate cold air that’s circulated through your server rooms. But if you want to save money, at least over the long term, a better approach might be to install air exchangers at each rack and use them to cool down individual racks of servers.

The latter approach, known as "rear rack cooling," offers several advantages over more traditional air cooling systems in data centers, particularly in terms of energy efficiency.

Here's a look at how rear rack cooling works and why you may want to consider it inside a data center as a way to improve your approach to cooling.

What Is Rear Rack Cooling for Data Centers?

Rear rack cooling in data centers entails the use of air exchangers installed directly behind a server rack to cool servers housed in that rack.

In a rear rack cooling system, each server rack is equipped with an air exchanger. When the rack is operational, the air exchanger blows cool air in and pushes hot air out.

Rear Rack Cooling vs. CRAC and Direct-to-Chip Cooling

Rear rack cooling is different from conventional data center air cooling systems – known as "Computer Room Air Conditioning," or "CRAC" – because instead of blowing chilled air through the entire server room, rear rack coolers target the equipment that produces most of the heat.

Related:How to Reduce Server Noise Inside Your Data Center

In a conceptual sense, rear rack cooling is similar to direct-to-chip cooling systems, which circulate liquid around CPUs or other heat sources within servers. This is another way of focusing heat dissipation on the equipment that produces most of the heat.

However, direct-to-chip cooling systems are also expensive because they require special cooling fluid and circulators. If you want to direct your cooling resources toward heat sources but don't have the budget for direct-to-chip cooling, rear rack cooling is the next best thing.

Benefits of Rear Rack Cooling

The main benefit of rear rack cooling is that it makes more energy-efficient use of chilled air. In a CRAC system, much of the air that is blown into a server room is wasted because it does not come into contact with equipment that actually generates heat. In contrast, a rear rack cooling system targets servers in a more localized fashion, reducing waste.

Rear rack cooling can also increase data center energy efficiency (and, by extension, improve PUE metrics) because air exchangers can be turned down or off when the servers inside an individual rack are not being used at full capacity or are inactive.

Related:Direct-to-Chip Cooling: Everything Data Center Operators Should Know

CRAC systems don't typically offer this option. If you have any servers running, your entire CRAC system will likely need to be turned on – even at times when heat generation is minimal.

Finally, rear rack cooling is a less expensive cooling option than liquid cooling systems, at least when measured in terms of upfront costs. In the long run, however, liquid cooling can be less costly because it requires less energy to operate.

Rear Rack Cooling Challenges

While rear rack cooling offers multiple benefits, there are some potential hurdles to its implementation in data centers. Rear rack cooling challenges include:

When Should You Choose Rear Rack Cooling?

If you're looking for a way to increase the energy efficiency of your data center, but you don't have the budget or time to implement advanced cooling solutions like direct-to-chip or immersion cooling, rear rack cooling is a good compromise. It's more efficient and effective than traditional air systems that cool entire computer rooms, and it's less expensive and complicated to install than liquid cooling.

On the other hand, if you're focused on long-term outcomes over a period of at least several years, liquid cooling is likely to deliver better ROI than rear rack cooling, due to the higher operational efficiency of direct-to-chip and immersion systems.