Powering the AI information heart increase dominated the dialog within the international vitality sector in 2025. Governments are racing to develop probably the most superior AI models, and information heart builders are constructing as quick as they’ll. However nobody goes to get very far with out discovering methods to generate and transfer extra electrical energy to those energy guzzlers.
Spectrum’s hottest vitality tales in 2025 centered round that theme. Readers had been notably concerned with tales about next-generation nuclear power, equivalent to small modular reactors and salt-cooled reactors, and the way these applied sciences may assist data centers. Readers additionally turned to Spectrum to study in regards to the pressure all of that is placing on electrical energy grids, and new applied sciences to resolve these issues.
Regardless of the weightiness of the vitality sector’s challenges, we discovered some enjoyable, off-beat tales to inform too. One American firm is constructing the world’s largest airplane—it’s greater than a football subject—and it’ll have one job: to move wind turbine blades.
I don’t know what 2026 will convey, however as Spectrum’s energy editor, I’ll do my finest to supply you tales which are true, helpful, and interesting. Cheers to a brand new yr in vitality!
GE Vernova
The world all of the sudden wants extra energy, however one resolution being examined is to downsize vitality era and distribute it extra broadly. One instance of that’s small modular reactors (SMRs). These nuclear fission reactors are lower than a 3rd of the dimensions and energy output of typical reactors. And because the April deadline approached for applying for the US $900 million the United States was offering for SMR development, readers got here to Spectrum in droves to find out about this system in a information article authored by contributor Shannon Cuthrell.
However the SMR cash paled compared to the $80 billion that the United States is spending on a fleet of large-scale nuclear reactors designed by Westinghouse. Will this subsequent group of reactors endure from the identical delays and value overruns as those that put Westinghouse into bankruptcy only a few years in the past? Spectrum introduced readers an expert analysis on the subject by Wooden MacKenzie’s Ed Crooks.
Edmon de Haro
The USA could have probably the most SMRs in improvement, however China has the one which’s furthest alongside. The Linglong One, on the island of Hainan, is anticipated to start operations within the first half of 2026. And that’s only one part in a smorgasbord of nuclear reactor experimentation in China. One of many nation’s most attention-grabbing initiatives is a thorium-powered, molten-salt reactor, which it started constructing in 2025 within the Gobi desert. Previous to this challenge, the final working molten-salt reactor was at Oak Ridge National Laboratory, which shut down in 1969.
The attraction of thorium as a gas is that it reduces dependence on uranium. Little or no data is out there on the progress of China’s thorium reactor, however with assist from our Taiwan-based freelancer Yu-Tzu Chiu, we all know it’s small—solely 10 megawatts—and is scheduled to be operational by 2030. Examine again with Spectrum for updates on this reactor and the Linglong One.
Radia
Whereas nuclear reactors must get smaller, wind turbines must get greater, say some renewable energy advocates. And the largest impediment to greater wind—in addition to the current political backlash—is transportation. Roads, bridges, and practice tracks dictate the dimensions of on-shore wind turbine blades, and often can’t accommodate something over 70 meters lengthy. That’s why Radia, an aviation startup in Boulder, Colo., is building the world’s largest airplane. It can stretch 108 meters in size, be formed to carry a 105-meter blade, and might land on a makeshift filth runway. Spectrum contributor Andrew Moseman traveled to Radia’s headquarters to take a look at the plane’s design and fly the behemoth on the corporate’s simulator. (Spoiler: He landed it.)
National Grid Electrical energy Transmission/Good Wires
None of this new vitality era will matter if we will’t transfer it throughout the grid to clients who want it. However many key transmission corridors are maxed. Blackouts are rising longer and extra frequent. Constructing new transmission traces takes years and infrequently will get thwarted by NIMBY pushback. Queues for connecting to the grid, whether or not you’re offering energy or requesting it, might be comically lengthy.
To bridge the hole, grid operators globally are turning to revolutionary grid tech. Collectively known as grid-enhancing applied sciences (GETs), among the boldest examples might be discovered within the United Kingdom. For instance, the U.Okay.’s Nationwide Grid has been implementing electronic power-flow controllers, known as SmartValves, that shift electrical energy from jammed circuits to these with spare capability.
The U.Okay. and different nations have additionally been reconductoring previous traces and installing dynamic line rating, which calculates how a lot present high-voltage traces can safely carry primarily based on real-time climate situations. And Scotland has been beefing up its grid-scale battery stations with superior converters. These leap into motion inside milliseconds to launch the additional energy wanted when vitality provide elsewhere on the grid falters. Spectrum contributor Peter Fairley, who authored a number of of those tales, traveled to the U.Okay. to analyze grid congestion woes and tech options.
Yamil Lage/AFP/Getty Photos
On the reverse finish of the spectrum, one of many world’s most uncared for grids might be present in Cuba. There, a long time of poor gas and upkeep have left the nation’s vitality infrastructure in disaster. Currently, Cuba’s whole grid has been collapsing each couple of months. Blackouts are so frequent that residents are cooking a number of meals directly and dealing by flashlight, says Ricardo Torres, a Cuban economist who defined the scenario for Spectrum readers in this popular expert-authored guest post.
The close by Caribbean island of Puerto Rico has additionally been enduring extra frequent blackouts, main some to invest that the grid on this American territory could go the identical means as Cuba’s. The turmoil has prompted widespread development of solar-plus-storage systems across the island which are privately financed, reviews Spectrum contributor Julia Tilton.
Edmon de Haro
On the lighter facet, we additionally explored the world of nuclear batteries. These gadgets retailer vitality within the type of radioactive isotopes. They’ll final for many years, making them ideally suited for medical implants, distant infrastructure, robots, and sensors. However the attract of a small battery with a 50-year lifespan has given this sector a number of false begins. There was a stint within the Seventies the place surgeons implanted nuclear-powered pacemakers in over 1,400 individuals solely to lose observe of them over time. Regulators balked when gadgets containing plutonium-238 began turning up in crematoriums and coffins.
Now the sector is experiencing a resurgence in curiosity. Corporations on a number of continents are claiming to be on the verge of commercialization of nuclear batteries. Whether or not they’ll discover keen markets is unclear. In a characteristic for Spectrum, nuclear battery knowledgeable James Blanchard particulars the historical past of those gadgets and why there’s all of the sudden extra exercise on this subject than he’s ever seen in his 40-year profession.
Brittany Greeson
Generally a narrative is so good that we simply should publish it, even when we discover it someplace else. That was the case with a chapter from the e-book Inevitable: Inside the Messy, Unstoppable Transition to Electric Vehicles (Harvard Enterprise Overview Press, 2025). The chapter tells the story of 1 power-train engineer at Ford whose internal-combustion-engine experience slowly grew to become expendable as automobile firms pivoted to EVs. With permission, we printed an adapted version of the chapter, which is chock-full of wonderful reporting from writer Mike Colias, a veteran automotive reporter. Don’t miss it! (Spoiler: The engineer, Lem Yeung, who left Ford after 30 years, ended up returning to the corporate a number of years later to assist clear up the mess brought on by the lack of old-school expertise. We caught up with Yeung after his return in this Q&A.)
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