The Data Center Sustainability Conundrum: How Data Centers Can Reduce Carbon Emissions as Power Demands Rise
“Data center sustainability" may sound like a contradiction. After all, data centers are notorious for their large physical footprint and immense energy consumption, driven by the need to power servers and cool them effectively. According to Morgan Stanley, growth in the global data center industry will see emissions equivalent to 2.5 billion metric tons of carbon dioxide generated by the end of 2030. By that same year, research also suggests that global data center greenhouse gas emissions will amount to around 40 percent of what the US emits in a year.
This challenge is only growing as the demand for AI and other high-performance computing tasks skyrockets, placing even greater pressure on data centers to find sustainable solutions. The build-out of data centers and increasing investments in clean power development, energy-efficient equipment, and green building materials will create a large market for decarbonization solutions.
Harnessing Waste Heat
Managing the server-generated heat is one of the most significant challenges in running a data center. Traditionally, this heat is viewed as a problem that needs to be mitigated, often through cooling systems. However, many data centers are flipping this challenge on its head by finding innovative ways to capture and reuse waste heat.
In some regions, data centers are partnering with local communities to redirect excess heat into nearby homes and businesses. For example, in the town of Luleå, Sweden, Facebook’s data center captures waste heat and uses it to warm surrounding buildings and homes. This approach not only reduces the need for conventional heating systems but also efficiently uses the energy that would otherwise be wasted.
The potential of waste heat reuse is not limited to small communities. The 2024 Paris Olympic Games incorporated an ambitious plan where a data center helped heat the Olympic Aquatic Center. This innovative approach reduces the energy footprint of this year’s Olympics and showcases how large-scale events can benefit from the sustainable practices of nearby data centers.
Beyond heating, some data centers are exploring ways to capture and reuse CO2 emissions, an inevitable byproduct of energy consumption. One fascinating example is the use of captured CO2 to grow algae, which can be used in various agri-food industries. Algae farming, powered by the CO2 output from data centers, can produce everything from animal feed to biofuels, creating a circular economy that benefits the environment and businesses.
Land and Structure Reuse: Transforming the Old into the New
Data centers require significant space, often leading to the development of new buildings on previously undeveloped land. However, there’s a growing trend toward reusing existing structures and land, particularly in urban areas where space is at a premium. This approach not only preserves green spaces but also revitalizes older infrastructure, aligning with broader sustainability goals.
One of the most innovative approaches to land reuse involves converting old power stations into data centers. These sites are often already equipped with robust power infrastructure, making them ideal candidates for transformation. However, with the increase demand for energy-hungry facilities, it can be challenging to find a suitable location with sufficient power.
Coal power stations are being decommissioned in parts of the US and Europe but may have attributes that a data center campus would need. Industrial sites will typically have been designed for high power usage, for example, and might come with power transmission infrastructure and be located close to a water source. But of course, there is a lot to consider here. Conversions might be a lengthy, costly, impractical, and bureaucratic process. In the end, it will take an in-depth analysis to determine if conversion or perhaps even repurposing will be a viable, let alone a sustainable solution.
In addition to power stations, old industrial sites offer another opportunity for sustainable development. These sites, often located near major population centers, can be repurposed as data centers, reducing the need for new construction and minimizing the environmental impact associated with building on greenfield sites. By reusing industrial sites, data centers can also contribute to urban regeneration, supporting local economies and reducing the environmental footprint.
In some cases, the transformation of old industrial sites into data centers goes hand in hand with environmental remediation efforts. For example, University of Maryland (UMD) experts and students are planning to incorporate technologies that clean nearby air and water resources, contributing to the overall health of the surrounding area. The UMD plan will include a 600-acre publicly accessible nature reserve designed specifically to soak up greenhouse gasses and other air pollution, buffer sound and manage rainwater runoff from the new Quantum Loophole data center complex outside of Frederick, MD, nearby the STULZ North American HQ. Additionally, the community of data centers is being built on the site of a former aluminum processing plant.
This holistic approach not only meets the operational needs of data centers but also aligns with broader sustainability goals, putting a positive spin on what could become a negative impact on the local environment.
The trend of land and structure reuse is part of a larger movement toward a circular economy, where resources are reused and recycled rather than discarded. By embracing this approach, data centers can reduce their environmental impact while supporting sustainable development in urban areas.
A Sustainable Future for Data Centers
The rising demand for data center sustainability is not just a trend; it’s a necessity. As the world becomes increasingly digital and reliant on data-driven technologies, the environmental impact of data centers cannot be ignored. The challenges posed by immense AI processors only underscore the urgency of finding innovative solutions to make data centers more sustainable.
At STULZ, we support data centers in achieving their sustainability goals by designing, developing, and manufacturing a variety of energy-efficient cooling solutions that reduce overall energy consumption. Additionally, we collaborate with customers to create tailored solutions that meet their specific needs, whether for air-cooling or liquid-cooling systems, ensuring reliable performance.
By reusing waste heat, exploring cutting-edge technologies, and rethinking how we use land and structures, data centers can transform from environmental liabilities into assets that contribute to a more sustainable future. The path forward may be challenging, but with creativity, innovation, and a commitment to sustainability, data centers can rise to the occasion and play a leading role in the fight against climate change.