Globally, data centers are estimated to account for 1 to 2% of electricity usage. The percentage is higher in Europe, where data centers there consumed 104 TWh of electricity in 2020 — about 3% of all the electricity consumed within the EU. Those data centers create a lot of waste heat. Some of it could be repurposed to help heat homes and businesses in Europe, where many cities have district heating systems, but until recently, the economics of doing so just haven’t penciled out. The energy emergency created by Russia’s assault on Ukraine has altered the financial calculus, however. Today, interest in harvesting excess heat from data centers is very much on the mind of many municipalities.
After years of discussions about putting residual heat to work rather than simply venting it to the outdoors, more waste heat recapture projects are becoming a reality, according to the Wall Street Journal (paywall, story via E-Trade news). In the last year, Amazon, Apple, and Microsoft have started connecting, or announced plans to connect, major data centers to district heating systems in Ireland, Denmark, and Finland. Alphabet says it is assessing opportunities to recover heat from its data centers across Europe.
Meta Platforms has been recovering excess heat from its data center in Odense, Denmark, since 2020. The Facebook parent is currently expanding that base, with plans to provide enough excess heat to warm about 11,000 homes as of next year. Other data center operators are providing heat to networks, particularly in Northern Europe, including Equinix, which is expanding its district heating project in Helsinki and working on new ones in Germany and other countries. In the Netherlands, there are 10 data centers already supplying heat and another 15 projects being built or researched, according to the Dutch Data Center Association.
Incentives Make Waste Heat From Data Centers More Valuable
Higher energy prices, stemming from Russia’s decision to effectively cut off natural gas deliveries following its invasion of Ukraine, have boosted the financial incentive for tech companies to invest in systems necessary to sell off their excess heat, energy and tech sector officials say. “All of a sudden, the business case for a heat network fueled by residual heat is much more interesting than a couple of years ago,” said Stijn Grove, the Dutch Data Center Association’s managing director.
Public pressure to increase energy efficiency at data centers has been a major driver, as well, industry executives say. The European Union is in the final stages of negotiating a new energy efficiency directive that would require data center operators to conduct feasibility studies for using their excess heat for homes and offices. In addition, national and local governments from France to Denmark have introduced tax incentives or made recapturing waste heat a requirement for some new building permits.
“The basic idea is good and it’s now spreading,” said Timo Piispa, vice president of heating and cooling at partly state-owned Finnish energy company Fortum Oyj. His company is involved in a project to collect waste heat from an Amazon data center in Dublin and is working with Microsoft to recycle waste heat from two large planned data centers in Finland.
Data centers in proximity to district heating systems could provide as much as 50 terawatt-hours a year of excess heat, according to a study from ReUseHeat, an EU-funded project aimed at promoting waste heat reuse. That would work out to between 2% and 3% of the energy EU households use on space heating in 2020, according to data from Eurostat.
Data Centers Create A Lot Of Waste Heat
Tech companies have for at least a decade touted the idea of funneling the heat generated by their enormous racks into waste heat recovery systems as a way to make their operations more energy efficient, which helps them meet emissions targets. But the systems have faced technical and legal challenges. Most data centers are cooled with air and the warm air they expel isn’t as hot as that required by most municipal heating systems. That means a tech company or the power company it partners with must install heat pumps to further warm the air to usable levels.
Energy companies often want commitments to provide heat energy for 10 or more years, which is longer than the financial planning horizon for some data center owners, according to industry experts. Another major issue is that data centers must be near to a heat network to make sure the heat doesn’t dissipate. And in many parts of the world, residential and office heat are only needed during six or fewer months a year, potentially making much of the production wasted.
“Often mayors tell us, there is a data center. Can’t we use it to heat a building or a pool? But it isn’t always possible unless there is the right infrastructure nearby,” said Yannick Duport, international director for Dalkia, a subsidiary of France’s EDF SA. Duport, whose company has built or operates several networks that use data center heat, said new tax breaks and energy efficiency requirements from localities are changing the calculus.
In the Danish town of Viborg, local officials pushed for Apple to connect a 485,000-square-foot data center there to the local heat network. This year, the company said it would do so as part of an expansion. Apple says it is working with local officials on how to use heat from the plant, which is powered by renewable energy projects.
“The pressure is growing,” said Niels Fuglsang, a Danish member of the European Parliament who is leading negotiations on the energy efficiency legislation. “If we can make sure we utilize the heat from data centers, we can save on our energy bills and do something good for the climate.”
Danfoss, an international engineering company, says data center heat reuse represents a major untapped potential in the green energy transformation. It has developed a Heat Recovery Unit specifically designed to recover excess heat in a data center simply and efficiently. The modular system is a cost effective solution that ensures both a lower carbon footprint and a fast return on investment.
Each HRU is a tailored system with all necessary components based on a 3D model. It includes a heating substation with accumulation tanks that is ready for use and an automatic controller which accommodates external communication. Designed as a floor station and delivered in one piece that can be split into three parts, the HRU is easy to transport and install. The design makes it simple to prepare the data center building with connection piping before the HRU is delivered.
In the green economy, efficiency will be a key component of sustainability. Until recently, energy from fossil fuels has been so cheap that many people and companies were simply oblivious to how much of it is wasted. No more. The urgency of carbon reduction and the high cost of traditional heating has made recapturing and reusing heat from power hungry data centers a high priority for both data center operators and municipalities alike.
Image credit: Eqjuinix via Dutch Data Center Association
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Source: Clean Technica