Google looks to batteries as replacement for diesel generators

Google will use large batteries to replace the diesel generators at one of its data centers in Belgium, describing the project as a first step towards using cleaner technologies to provide backup power for its millions of servers around the world, Datacenterfrontier.com reports.

“Our project in Belgium is a first step that we hope will lay the groundwork for a big vision: a world in which backup systems at data centers go from climate change problems to critical components in carbon-free energy systems,” said Joe Kava, Vice President for Data Centers at Google. “We’re aiming to demonstrate that a better, cleaner solution has advanced far enough to keep the internet up and running.”

Google becomes the second major hyperscale cloud operator to pursue a strategy to move beyond diesel generators. In July, Microsoft said it will eliminate its reliance on diesel fuel by the year 2030 and has begun testing hydrogen fuel cells as an alternative. These announcements have implications beyond company-built facilities, as Google and Microsoft are major tenants in third-party data centers, most of which use diesel generators for backup power.

Kava says broader use of batteries can accelerate the shift away from fossil fuel, enabling data centers and electric utilities to overcome the intermittent nature of renewable sources like wind and solar power. That’s a particular problem for data centers, which must provide uninterrupted power around the clock, in all weather conditions.

“Wind and solar power are currently booming around the world, but sunny days and breezy hours don’t always align with a community’s energy demand,” Kava said in a blog post. “Large-scale batteries at data centers can address this problem by banking renewable power when it’s abundant, and discharging it when it’s needed.”

Google’s research with battery technologies is part of a larger push to collaborate with utilities to create a more sustainable power grid. “Batteries can help balance other kinds of variability on power grids, allowing for more cost-effective and efficient operations,” said Kava. “Working in partnership with ELIA, the local transmission system operator in Belgium, we’ll strive to make our project a model for how data centers can become anchors for carbon-free electric grids.”

Lithium-ion, deployed at scale

The pilot project at Google’s Belgium data center will begin in the summer of 2021, and will use large lithium-ion batteries to replace generators, according to Maud Texier, Carbon Free Energy Lead at Google.

“Once the batteries come online, they will first be tested operating in tandem with generators to validate the performance,” said Texier. “We perceive it as the first-of-a-kind opportunity. We are replacing the diesel generators with batteries on a one-to-one basis, demonstrating the maturity of the batteries.” Texier said Google is currently working with a single vendor, which is not being disclosed.

Google isn’t alone in pursuing broader use of large-capacity batteries. Switch recently unveiled plans to use new large-scale energy storage technology from Tesla to boost its use of solar energy for its massive data center campuses in Las Vegas and Reno.

Addressing technical challenges

To work in data centers, utility-scale batteries must address two challenges – meeting the capacity requirements, and providing the duration to write out a lengthy outage.

“We see capacity as a low risk,” said Texier, who worked in the battery program at Tesla prior to joining Google in 2019. “We expect batteries to have a very similar modularity as generators. It’s been well demonstrated at similar scale.”

The largest single-site lithium-ion battery installation is the 150-megawatt Hornsdale Power station in Australia, with a handful of other projects in development that will surpass 100 megawatts of battery capacity.

Addressing duration is a more complex challenge. “It’s not just finding the right technologies, but how we look at our load and optimizing our compute during these events,” said Texier.

The goal is “load flexibility” for prolonged outages, which could mean shifting compute workloads to other Google data centers, but also might mean tapping other energy sources.

“Batteries are one piece of the puzzle,” said Texier. “We would expect to look at other technologies as well.”

Source:batteryindustry

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