Download PDF version

The HVAC industry is warming up to use the heat from data centers. Data centers, the spaces, buildings, and campuses that house computer servers and related data-storage equipment generate enormous amounts of waste heat, which is often simply released into the atmosphere.

But in an increasingly computerized world, in which billions of devices are connected to the internet and many companies opt to co-locate server functions at shared facilities, the need for more and ever-larger data centers is growing, even as the pressures for greater energy efficiency and decarbonization mount.

Data center technology

Meta, the parent company of Facebook, for example, has 21 data centers around the world and seven more under development, including one in Mesa, Arizona, that will total 2.5 million square feet when completed.

That kind of growth and several other factors have prompted major HVAC manufacturers to introduce more products to recover the excess heat and put it to good use. “There is keen, industry-wide interest in data center heat recapture,” said Hugh Hudson, the data center market manager at Daikin Applied, which has deployed its technology at data centers around the globe.

Heat Centers

To capture the heat and reusing it at scale is a unique challenge in residential or commercial buildings"

A typical large data center can generate 20 to 50 MW of heat, Hudson said, while a data center campus can generate up to 300 MW enough to power a mid-sized city. “To capture the heat and reuse it at scale is a unique challenge compared to capturing and repurposing waste heat in residential, commercial, or institutional buildings,” Hudson said.

The use of data-center heat is more common in Europe than in the U.S. but is catching on here. The University of Notre Dame warms a local greenhouse with the heat from a campus data center, and the Department of Energy’s Energy Systems Integration Facility, in Golden, Colorado, uses data-center heat to heat the building and a related research laboratory, for example.

Features

According to Drew Turner, the director of global sector integration at Danfoss, data centers have several features that make them uniquely attractive for heat recovery, including consistent heat output due to their 24/7 operation, consistent load, and backup power systems that provide resiliency for external users of the recovered heat.

Chilled-water cooling systems, Turner said, are optimal for heat recapture, and data centers have been favoring chilled-water systems, over direct-expansion (DX) air conditioning, because of their greater efficiency and the lower refrigerant charge that’s required. “This creates a significant potential for efficient heat reuse,” he said. “The higher the temperature it is, the higher value it is for reuse," said Miles Auvil, Vertical market leader for data centers, Trane.

Higher Temps, Higher Value

Miles Auvil, the global vertical market leader for data centers at Trane, said a heat-recovery chiller at a typical data center may be able to transfer excess heat to warm adjacent offices or heat water for use nearby.

But some larger-scale heating needs, like district heating, may require the use of water-source heat pumps to boost temperatures, he said. “The higher the temperature it is, the higher value it is for reuse,” Auvil said.

Reusing waste heat

ASHRAE says that centers with A1-class equipment can be kept at 80.6°F and within an allowable range

In addition to overall growth in the number of data centers, several other trends, experts said, have made using the waste heat from them more attractive.

One, Auvil said, is that many data centers are cooled to higher temperatures than in the recent past when one might have had to don a sweater before entering. ASHRAE says that centers with A1-class equipment, which require the highest level of environmental control, can be kept at 80.6°F, and within an allowable range of between 59°F and 89.6°F.

Avoid thermal runaway

In the past, Auvil said, data center managers sought lower temperatures, fearing the overheating and malfunctioning of critical equipment. “That same equipment is very tolerant of the 80.6°F that most newer facilities are trying to run at,” Auvil said.

What’s important, though, is enough backup cooling to avoid “thermal runaway” in the event of a primary cooling system failure. Another trend, he said, is the move toward larger data centers that generate more heat. “Most of the data centers we work with today are large-scale,” he said.

Direct-liquid and -immersion cooling systems

A third important trend, he said, is the use of new computer chips with higher transistor densities that can no longer be air-cooled.

This means the industry must use direct-liquid and -immersion cooling systems to effectively and efficiently handle the heat being generated by this IT equipment. “It’s only going to get more valuable to the consumers that want to take that heat because our temperatures will continue to climb,” he said.

Wave of Future

New data centers will be linked to adjacent businesses with a high demand for heat

Experts say the number of heat-capture retrofits at existing data centers and new data centers that incorporate heat-capture systems will increase. They say that district heating, vertical farming, and industrial processes that require heat are some of the potential uses of that data-center heat.

Increasingly, they said, new data centers will be linked to adjacent businesses with a high demand for heat. “This frequently means that the quality or temperature of the heat recovered from the data center cooling system is sufficient without the need to further boost it,” said Turner.

Reducing carbon footprint

The commercial arrangements will likely have more promise than serving institutional or municipal heat loads, such as district heating,” said Hudson.

Such a business partnership can provide a revenue source for the data center that’s selling excess heat as well as help both parties reduce their carbon footprints. “The challenge is getting them to line up from a real estate perspective,” said Auvil.

One Face of Decarbonization

Capturing and using waste heat is just one facet of the decarbonization efforts HVAC manufacturers are making when it comes to data centers.

All decarbonization efforts should start with energy efficiency,” said Turner. “When approaching a data center cooling and/or heat reuse opportunity, Danfoss’ focus is on solutions which optimize the efficiency and resulting decarbonization.”

Cooling solutions

The company is also making products that use the lowest GWP refrigerants, he said, which means lower heat-trapping emissions in the event of refrigerant leaks.

Daikin’s cooling solutions can be employed to trim energy consumption and water consumption, addressing the ‘energy-water nexus’ challenge that is one of the key paths to decarbonizing large-scale data centers,” said Hudson.

Download PDF version Download PDF version

In case you missed it

2025 AHR Expo: Top Innovations In HVACR Announced
2025 AHR Expo: Top Innovations In HVACR Announced

The AHR Expo (International  Air-Conditioning, Heating, Refrigerating Exposition) today announced the winners of the 2025 AHR Expo Innovation Awards. Winners are chosen annua...

Johnson Controls Center Develops And Tests HVAC Systems For Data Centers
Johnson Controls Center Develops And Tests HVAC Systems For Data Centers

Johnson Controls’ Advanced Development Engineering Center (JADEC) in New Freedom, PA., about 25 miles from Philadelphia, highlights and demonstrates the company’s capab...

Airzone Aidoo Pro Enhances VRF Energy Efficiency
Airzone Aidoo Pro Enhances VRF Energy Efficiency

The Olsen Group, based in Boca Raton, Florida, is a national pioneer in HVAC energy optimization. Donald Olsen and his seasoned team of HVAC control specialists have been in busine...

vfd