Data centers, those serried racks of servers, storage devices, and network hardware that keep the internet humming, are dominating the conversation about future energy demand.

The scene: northwest Germany. A quiet farm. Enter a university student with a question that would shape her future. “Hey, when are you getting a wind turbine?”

It was a casual moment, but for Julia Vey, then an apprentice at GE Vernova in nearby Salzbergen, it planted a seed. Back in the early 2000s, wind power was still small-scale, and large turbines were rare. But Julia was fascinated — and determined to be part of what she sensed was coming.

In Lahore, Pakistan, there is a seven-year-old girl with an amateur interest in gas turbine maintenance. Over the past few months, Waqas Ahmad, a senior customer portfolio manager at GE Vernova, has given his curious daughter a layman’s introduction to heavy-duty turbine inspections.

A bolt of lightning crackles through the air. An instant later there’s a flash, followed by an ominous sizzle: the lightning struck a powerline. Normally, you’d run inside and call the electric company.

The 2020s have a lot in common with the 1920s when it comes to the buildout of electrical power. Back then, grids were largely driven by coal, which was polluting, to be sure, but offered stability to big, national electrical systems with power plants that often ran uninterrupted for long periods of time. Then came hydropower, with its distant electrical power generators. Power engineers, trying to figure out how to transmit power from faraway places, developed an unusual machine called a synchronous condenser.

Everyone loves a vacation. But that’s the problem: The world’s holiday destinations are bursting at the seams with visitors. Workers at the Louvre in Paris recently went on strike, saying they were suffering from exhaustion.

A charming aphorism like “A dollar saved is a dollar earned” probably sounds old-fashioned to the modern ear. In the world of manufacturing, however, where gains from efficiency can be substantial, the observation stands as an enduring truth. Today’s great industrial game, while still concentrating on financial savings, is very much directed to emissions savings, and all the ways to reduce energy inputs. How to approach that, exactly?

Global electricity demand busted out of its slumber last year, largely attributed to factors such as industrialization, data centers, and electric vehicles, leaping forward by 4.3%. That’s more than twice the annual average of the past decade, according to the International Energy Agency.

Hammerfest, Norway (May 21, 2025) – GE Vernova Inc. (NYSE: GEV) today announced the forthcoming deployment of two high-voltage 420 kV sulfur hexafluoride - free (SF₆-free) gas-insulated substations (GIS) for Statnett SF, Norway’s Transmission System Operator (TSO), and Equinor ASA. Awarded in the fourth quarter of last year, the contract covers the design, supply, and installation of GIS units at Skaidi and Hyggevatn as part of Statnett’s 420 kV transmission line project—an important milestone supporting Norway’s energy transition and decarbonization effort.

The Skaidi substation involves upgrading the existing facility, while the Hyggevatn substation will be a completely new installation. Together, they aim to modernize Norway’s electrical grid, increase capacity, and electrify Melkøya Island, home to Equinor’s Snøhvit gas field and Hammerfest LNG plant. This initiative aligns with Statnett’s and Equinor’s commitment to achieving a sustainable energy transition while reducing greenhouse gas emissions.

The design of these next-generation substations will be based on GE Vernova’s g³ technology, which replaces SF₆ gas, a potent greenhouse gas commonly used in high-voltage equipment. The g³ technology is part of GE Vernova’s GRiDEA portfolio, a suite of decarbonization solutions that empower grid operators to meet their net-zero objectives. Launched in 2014, g³ gas shows an approximately 99% reduction in greenhouse gas contribution to global warming compared to SF₆, supporting the energy sector’s decarbonization goals.

Driving decarbonization of the grid across Europe

“This project in Norway is the latest of many contracts that we have signed for our new SF₆-free 420 kV T155g GIS since our first one in Scotland in 2020. GE Vernova’s g³ product portfolio has experienced strong commercial growth since the launch of our first SF₆-free product, underscoring the trust placed in g³ by over 60 utilities in Europe and Asia,” said Eric Chaussin, Power Transmission Business Leader at GE Vernova’s Electrification segment. “This marks another important milestone in our journey to electrify and decarbonize the world’s grids. We are proud to support the climate ambitions of Norway.”

GE Vernova’s g³ technology roadmap covers a wide range of voltage levels, from 72.5 kV up to 550 kV. The EU Commission LIFE Programme recognized the potential of this innovative technology by co-funding the development of the SF₆-free 420 kV GIS interrupter under the "LifeGRID" project. The g³ technology is now enabling utilities to take immediate action to reduce the carbon footprint of their high-voltage power grids, supporting their decarbonization goals.

Statnett’s Skaidi and Hyggevatn substations are expected to become operational by 2029. GE Vernova has a  track record of successful GIS Substations in Norway, including in Oslo Smestad, Sogn, and Hamang.

-ENDS-

Forward Looking Statements

This document contains forward-looking statements – that is, statements related to future events that by their nature address matters that are, to different degrees, uncertain. These forward-looking statements address GE Vernova's expected future business and financial performance, and the expected performance of its products, the impact of its services and the results they may generate or produce, and often contain words such as “expect,” “anticipate,” “intend,” “plan,” “believe,” “seek,” “see,” “will,” “would,” “estimate,” “forecast,” “target,” “preliminary,” or “range.” Forward-looking statements by their nature address matters that are, to different degrees, uncertain, such as statements about planned and potential transactions, investments or projects and their expected results and the impacts of macroeconomic and market conditions and volatility on business operations, financial results and financial position and on the global supply chain and world economy