Microsoft Outlines Its Vision For a Zero-Carbon Cloud, Around the Clock

July 16, 2021
Microsoft has outlined a vision to run its Azure “planetary computer” and its 4 million servers using entirely zero-carbon sources, including hourly matching of renewable energy.

This week Microsoft outlined a vision to run its Azure “planetary computer” and its 4 million servers using entirely zero-carbon sources, including hourly matching of renewable energy. Microsoft says it will work with utilities and industry partners to “lay the groundwork for a decarbonized grid.” The company also outlined plans to deploy “circular centers” to boost the recycling and reuse of IT components and create zero-waste data center campuses.

“By 2030 Microsoft will have 100 percent of our electricity consumption, 100 percent of the time, matched by zero carbon energy purchases,” Microsoft said in a blog post by Chief Environmental Officer Lucas Joppa and Noelle Walsh, CVP for Cloud Operations + Innovation. We know that our actions alone won’t decarbonize the grid, but we are committed to doing our part to help drive important market demand signals that influence the speed and scale at which the grid decarbonizes.”

Microsoft began its implementation of zero-carbon strategies last year with a new campus in Sweden that will be the company’s most advanced and sustainable to date by integrating renewable energy sources, and a new data center design. This week Microsoft outlined several steps to advance granular tracking of its energy use.

  • Microsoft said it would expand its hourly energy tracking, which began last fall with a local program using a 24/7 matching program from Vattenfall for its Swedish campus. The company will add a new pilot in the Netherlands with energy provider Eneco and FlexiDAO, which will match its Amsterdam datacenter’s hourly energy consumption with Dutch offshore windfarm Borssele.
  • Microsoft is enabling “spatial matching” of its energy use with data called Locational Marginal Emissions (LMEs), which tracks the condition of the power grid at the time and location that the clean energy was produced. Microsoft is partnering with REsurety  We partnered with REsurety to create an LME tool on Azure that calculates the decarbonization impact of its renewable energy supply with greater accuracy, beginning first with a pilot in the Electric Reliability Council of Texas (ERCOT).

“We can play a key role in fully decarbonizing the grid,” said Brian Janous, GM of Energy and Renewables and Microsoft. “To do it the fastest and the most cost-effectively, we need to be able to understand the carbon impact of each MWh coming from a specific wind, solar, or storage plant. We want to make sure that the clean energy we’re helping to bring onto the grid has the maximum environmental benefit. REsurety’s Locational Marginal Emissions data gives us the transparency we need to make climate-wise investments.”

Microsoft becomes the latest cloud operator to commit to power its data centers around-the-clock with clean power. Last September, Google said will power its entire global information empire entirely with carbon-free energy by 2030, matching every hour of its data center operations to carbon-free energy sources.

“We’re thrilled to see another major company commit to operating on 24/7 carbon-free energy,” said Kate Brandt, Chief Sustainability Officer at Google. “There is a growing consensus from business leaders to the White House that we must move beyond emitting and compensating, and take steps to operate using carbon-free energy every hour of every day.”

Multi-tenant data center operators are also seeking to provide hourly tracking of their energy use. Earlier this year Iron Mountain began teaming with RPD Energy and Direct Energy to source 100 percent renewable energy aimed at matching the hourly usage renewable energy load of electricity used in more than 60 Iron Mountain facilities in Pennsylvania and New Jersey.

Long-Term Goal: A Decarbonized Grid

Microsoft’s announcements, which coincided with a major customer conference, covered a broad scope of sustainability initiatives. The company acknowledged that it cannot accomplish its goals alone.

“At Microsoft we have a long-term vision that we refer to as 100/100/0 – that on all the world’s grids, 100 percent of electrons, 100 percent of the time, are generated from zero carbon sources,” the company executives noted. “We call this a vision because we alone can’t control the outcome. Like other users, our datacenters and our offices around the world simply plug into the local grid, consuming energy from a vast pool of electrons generated from near and far, from a wide variety of sources. So while we can’t control how our energy is made, we can influence the way that we purchase our energy.”

Microsoft said that over the last 12 months, it has signed new purchase agreements for approximately 5.8 gigawatts of renewable energy across 10 countries around the globe. This includes more than 35 individual deals, including over 15 in Europe spanning Denmark, Sweden, Spain, U.K. and Ireland. This procurement brings Microsoft’s operating and contracted renewable energy projects to 7.8 gigawatts globally.

More Circular Centers to Reduce IT Waste

The company also said it would build additional Microsoft Circular Centers at data center campuses to pursue zero-waste policies. These facilities use machine learning to process servers and hardware that are being decommissioned onsite, boosting the percentage of components that can be reused and repurposed, and applying data to help its supply chain teams improve the sustainability of future generations of equipment.

“We expect the Microsoft Circular Centers to increase the reuse of our servers and components by up to 90 percent by 2025,” said Microsoft.

The company launched its initial Circular Center in Amsterdam, and this week it said it plans to bring new Circular Centers to campuses in Dublin, Chicago, Singapore and Boydton, Virginia in the coming fiscal year.

About the Author

Rich Miller

I write about the places where the Internet lives, telling the story of data centers and the people who build them. I founded Data Center Knowledge, the data center industry's leading news site. Now I'm exploring the future of cloud computing at Data Center Frontier.

Sponsored Recommendations

How Deep Does Electrical Conduit Need to Be Buried?

In industrial and commercial settings conduit burial depth can impact system performance, maintenance requirements, and overall project costs.

Understanding Fiberglass Conduit: A Comprehensive Guide

RTRC (Reinforced Thermosetting Resin Conduit) is an electrical conduit material commonly used by industrial engineers and contractors.

NECA Manual of Labor Rates Chart

See how Champion Fiberglass compares to PVC, GRC and PVC-coated steel in installation.

Electrical Conduit Cost Savings: A Must-Have Guide for Engineers & Contractors

To help identify cost savings that don’t cut corners on quality, Champion Fiberglass developed a free resource for engineers and contractors.