Meta Platforms, the company behind Facebook, Instagram, and WhatsApp, isn’t just about connecting people online anymore. It’s taking real, concrete steps to protect the planet, too.
In a recent move that caught many by surprise, Meta announced a partnership with Sage Geosystems to power its U.S. data centers with geothermal energy.
This is a calculated part of Meta’s larger plan to hit net zero emissions by 2030. And with the increasing energy demands from artificial intelligence (AI) and data centers, this partnership is more crucial than ever.
Geothermal energy makes perfect sense for Meta. While solar and wind energy depend on the weather, geothermal taps into the Earth’s natural heat and provides a constant, reliable power source.
Sage Geosystems, a Houston-based startup, is bringing some serious innovation to the table with their Geopressured Geothermal System (GGS). This tech is different—it can generate clean energy in places where traditional geothermal methods just couldn’t reach.
- The project kicks off in 2027 with the first phase delivering 150 megawatts of power. That might sound technical, but it means enough clean energy to power around 38,000 homes.
For Meta, it’s a big step toward reducing the carbon footprint of their data centers. Those data centers are energy hogs, and as Meta continues to grow its AI capabilities, the need for energy will only rise. Geothermal energy helps ensure that this growth doesn’t come with a side of increased emissions.
Geothermal Energy: The Secret Sauce Powering Meta’s Data Centers
Meta’s move to geothermal energy isn’t just about reducing its carbon footprint—it’s also about showing what’s possible.
Data centers are the beating heart of Meta’s digital empire, supporting everything from your latest Facebook post to the newest Instagram Story. But they’re also energy guzzlers. That’s where geothermal comes in as a savior, providing constant, clean energy to keep those centers running without burning more fossil fuels.
Sage Geosystems’ Geopressured Geothermal System (GGS) is the star here. Traditional geothermal energy is limited by geography—you need naturally occurring underground reservoirs of hot water, which limits its use to places like Nevada or California. But Sage’s technology breaks through those barriers.
It can tap into geothermal energy in more places, including areas east of the Rocky Mountains where Meta plans to set up the new facility. This opens up new possibilities not just for Meta but for the broader adoption of geothermal power across the U.S.
The 150-megawatt project is just the start. As technology evolves, Meta could roll out more geothermal projects, cementing its place as a leader in the renewable energy space. Meta is pushing the envelope and setting a new standard for how tech companies approach sustainability.
Meta’s Net Zero Journey: A Comprehensive Carbon Offset Strategy
Meta’s geothermal energy initiative is more than just a green headline—it’s a vital piece of a much bigger puzzle. Since 2020, Meta’s operations have run on 100% renewable energy. But the company’s ambitions are even higher: net zero emissions across its entire value chain by 2030.
That’s a tall order, especially when you consider that it includes everything from suppliers to employee commutes.
The shift to geothermal energy is a big step in that journey. With AI technologies and data centers consuming more power, Meta must find ways to meet those demands without adding to its carbon footprint. Geothermal energy provides a reliable, scalable solution that fits perfectly with Meta’s goals.
By integrating this clean energy source, Meta can continue growing while keeping its commitment to sustainability intact.
- Meta has also invested in over 12,000 megawatts of renewable energy projects, including solar and wind.
These efforts are all part of a comprehensive strategy to reduce reliance on fossil fuels and minimize the company’s environmental impact.
On top of that, Meta is investing in carbon removal projects—initiatives designed to suck carbon dioxide out of the atmosphere, whether through reforestation or cutting-edge technologies like direct air capture. These projects are essential for tackling the emissions that are harder to eliminate.
Beyond Energy: Meta’s Broader Vision for Emissions Reductions
Meta’s commitment to sustainability isn’t just about energy. It’s rethinking the entire way the company operates, from the materials used in its products to how it manages its supply chain. The company is taking a holistic approach, addressing everything from water use to waste reduction and even biodiversity.
Take water, for example. Meta is on a mission to become water positive by 2030. That means the company will restore more water to the environment than it consumes in its operations. And it’s not just talk—Meta is investing in real projects that aim to make this goal a reality.
The same goes for waste. Meta is pushing for circular practices across its operations, focusing on reducing waste and reusing materials whenever possible. By extending the lifespan of products and reducing the need for new materials, Meta is cutting costs and reducing its environmental impact at the same time.
And let’s not forget the supply chain. Meta’s responsible supply chain program is all about collaboration. The company is working closely with its suppliers to help them set and meet their own sustainability goals. It’s a win-win situation: suppliers become more sustainable, and Meta reduces its overall carbon footprint.
Meta’s leadership in sustainability is making waves across the tech industry. The company’s commitment to clean energy, water stewardship, and waste reduction sets a new standard for what corporate sustainability can look like.
In the end, Meta’s partnership with Sage Geosystems is a bold step forward. It’s about more than just powering data centers—it’s about shaping a sustainable future for all.
As Meta continues to innovate and expand, its commitment to the planet remains at the core of everything it does. This is the kind of leadership that’s needed to reduce emissions, and Meta is proving that it’s up to the challenge, one geothermal project at a time.