Rob Thornton, President & CEO, International District Energy Association (IDEA)

As the number of data centers grows, so do concerns about location, power access, and grid capacity, especially as AI and cloud computing drive surging electricity demand. Yet, data centers hold an unexpected solution: the waste heat they generate can be harnessed for community benefit.

Captured through district energy systems, this heat can be transformed into a valuable community resource that provides low-carbon warmth, improves grid stability, and redefines data centers as energy partners.

The Power Behind the Numbers

In 2023, data centers accounted for roughly 4.4% of total U.S. electricity use, a share projected to rise to as much as 12% by 2028. As utilities and developers scramble to expand clean generation and transmission, waste heat reuse offers an immediate, scalable way to reduce carbon intensity and ease grid stress.

How Heat Reuse Works

Servers generate heat, which can be captured and directed into district energy networks—insulated pipes transporting hot or chilled water—supplying heat to nearby buildings. This approach reduces the electricity needed for heating and cooling, improving overall efficiency and cutting emissions. In essence, the data center becomes part of a shared local energy ecosystem.

Some add combined heat and power (CHP) systems that produce electricity and heat simultaneously. CHP can increase efficiency for large or urban centers. Two deployment models stand out:

  • Urban data centers (10–20 MW): Linked to city energy networks for efficient heat export.
  • Large, remote sites (100 MW–1 GW): Feature CHP-based microgrids to serve multiple facilities.

Cities Leading the Way

Areas with dense data center development, such as Northern Virginia’s “Data Center Alley,” are exploring new district heating networks to link excess data center heat with community energy needs. Several pioneering projects in Canada illustrate the potential.

  • Markham, Ontario: An Equinix data center retrofitted for heat recovery now warms local condos, a university, schools, and recreation facilities, creating community benefits.
  • Toronto, Ontario: Enwave Energy connects Telehouse Canada’s data centers to its system using deep-lake water cooling and waste-heat recovery. This model reduces resource use, enhances cooling, and supports city climate goals.

From Grid Burden to Energy Partner

Heat reuse fundamentally shifts the purpose of data centers from major power consumers to vital contributors in a circular energy economy. By sharing surplus heat, these facilities support decarbonization, reliability, and resilience, and these solutions can be achieved faster than large-scale infrastructure investments.

How Operators Can Get Started

For operators and planners evaluating heat reuse, three clear steps can set the foundation for success:

  • First, thoroughly assess the site-level heat export potential for both new builds and retrofits by analyzing available waste heat, proximity to potential heat users, and compatibility with local district energy infrastructure.
  • Second, proactively engage municipalities and district energy providers early. This means initiating discussions to align on infrastructure design needs, available incentives, and long-term energy offtake agreements.
  • Third, explore hybrid system options—such as pairing CHP, thermal storage, and advanced cooling technologies—for maximum operational flexibility, especially when grid interconnections may be delayed. Evaluate each technology’s potential to complement site-specific requirements and constraints.

As the data economy grows, speed, sustainability, and resilience must move forward together. Waste heat has the potential to be much more than a byproduct; it can become a resource that positions data centers as active agents in community well-being. In the era of AI, shared energy is truly smart energy.

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About the Author:

Rob Thornton is President & CEO of the International District Energy Association (IDEA), a global nonprofit founded in 1909 that advocates for efficient, resilient, and sustainable district energy systems. Under his leadership, IDEA works with public and private partners worldwide to advance energy efficiency, decarbonization, and community-scale thermal networks.