“There are a lot of startups out there pursuing fusion with a number of different methods,” Jeff Lawson says. “But none of them were really basing their work on Livermore and just taking the most direct possible path, from what has now been working at Livermore to a working power plant design.” Our mission is clear: commercialize fusion energy and deliver safe, abundant clean power to meet the world’s growing energy needs. Read the full story and follow Inertia for the latest updates. https://lnkd.in/e_7q5qNa
Inertia's mission to commercialize fusion energy and deliver clean power
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#sthlmtech Blykalla has formed a partnership with U.S. developer Oklo Inc to advance their work on small modular fast reactors. By ArcticStartup https://lnkd.in/dfVqd69F #NordicMade #energytech #cleantech #climatetech
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See How Fusion Energy Could Power the Future Nuclear fusion promises a green and infinitely renewable supply of energy—if we can harness it. Fusion happens all the time inside the sun. But to recreate the process on Earth, we must control incredibly hot, chaotic matter in an exceedingly dense state. Prototypes of several different fusion-reactor designs are being tested around the world. The National Ignition Facility (NIF) at Lawrence Livermore National Laboratory in California, for example, uses lasers to spark fusion in a small pellet of fuel. Tokamaks, such as the International Thermonuclear Experimental Reactor (ITER) in France, use electromagnetic fields to confine plasma and heat it to the temperatures and densities necessary to ignite fusion. And stellarators, such as the Wendelstein 7-X experiment in Germany, add a twist to the magnetic field concept of tokamaks. It’s too soon to say whether any of these technologies can overcome their challenges to become a reliable energy source. But the motivation to make that happen is clear. “Necessity is the mother of invention,” says Laura Berzak Hopkins, associate laboratory director at the Department of Energy’s Princeton Plasma Physics Laboratory (PPPL). “We have increasing energy demands and a changing climate, and fusion is the way we can address both those needs.” WHAT IS FUSION? Nuclear fusion is the process by which two atoms combine to form a larger atom (minus a bit of mass) plus energy. Rrad much more in full article : https://lnkd.in/e549u-ya
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WHAT IS FUSION? Nuclear fusion is the process by which two atoms combine to form a larger atom (minus a bit of mass) plus energy.
See How Fusion Energy Could Power the Future Nuclear fusion promises a green and infinitely renewable supply of energy—if we can harness it. Fusion happens all the time inside the sun. But to recreate the process on Earth, we must control incredibly hot, chaotic matter in an exceedingly dense state. Prototypes of several different fusion-reactor designs are being tested around the world. The National Ignition Facility (NIF) at Lawrence Livermore National Laboratory in California, for example, uses lasers to spark fusion in a small pellet of fuel. Tokamaks, such as the International Thermonuclear Experimental Reactor (ITER) in France, use electromagnetic fields to confine plasma and heat it to the temperatures and densities necessary to ignite fusion. And stellarators, such as the Wendelstein 7-X experiment in Germany, add a twist to the magnetic field concept of tokamaks. It’s too soon to say whether any of these technologies can overcome their challenges to become a reliable energy source. But the motivation to make that happen is clear. “Necessity is the mother of invention,” says Laura Berzak Hopkins, associate laboratory director at the Department of Energy’s Princeton Plasma Physics Laboratory (PPPL). “We have increasing energy demands and a changing climate, and fusion is the way we can address both those needs.” WHAT IS FUSION? Nuclear fusion is the process by which two atoms combine to form a larger atom (minus a bit of mass) plus energy. Rrad much more in full article : https://lnkd.in/e549u-ya
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The goal is to get more sustained energy out of the system than goes in Experiments in 2022 at NIF—the most famous inertial confinement facility—provided proof of concept. The project did release more fusion energy than its lasers used to create the reaction, but charging those lasers incurred an energy cost.
See How Fusion Energy Could Power the Future Nuclear fusion promises a green and infinitely renewable supply of energy—if we can harness it. Fusion happens all the time inside the sun. But to recreate the process on Earth, we must control incredibly hot, chaotic matter in an exceedingly dense state. Prototypes of several different fusion-reactor designs are being tested around the world. The National Ignition Facility (NIF) at Lawrence Livermore National Laboratory in California, for example, uses lasers to spark fusion in a small pellet of fuel. Tokamaks, such as the International Thermonuclear Experimental Reactor (ITER) in France, use electromagnetic fields to confine plasma and heat it to the temperatures and densities necessary to ignite fusion. And stellarators, such as the Wendelstein 7-X experiment in Germany, add a twist to the magnetic field concept of tokamaks. It’s too soon to say whether any of these technologies can overcome their challenges to become a reliable energy source. But the motivation to make that happen is clear. “Necessity is the mother of invention,” says Laura Berzak Hopkins, associate laboratory director at the Department of Energy’s Princeton Plasma Physics Laboratory (PPPL). “We have increasing energy demands and a changing climate, and fusion is the way we can address both those needs.” WHAT IS FUSION? Nuclear fusion is the process by which two atoms combine to form a larger atom (minus a bit of mass) plus energy. Rrad much more in full article : https://lnkd.in/e549u-ya
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Fermi, a nascent data center REIT co-founded by former U.S. Energy Secretary Rick Perry, raised $682.5 million in its IPO by selling 32.5 million shares at $21 each, valuing the company at about $12.46 billion. The company is developing “Project Matador,” an AI-centered energy and data campus in Amarillo, Texas, with ambitions to supply multiple gigawatts using a mix of nuclear, natural gas, and solar power. Despite being pre-revenue and recording a $6.4 million loss through June, Fermi plans for limited energy delivery by late 2026. https://lnkd.in/gyrhKaRT
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Powered by SMR from NuScale Power, Utah State University and US National Labs are poised to transform the carbon-intensive industry with ammonia process innovations. https://lnkd.in/d-HFdnxx
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Avalanche Energy's $40M Series A and 300,000-volt electrostatic fusion milestone represent significant developments in alternative fusion approaches and distributed energy technology. Technology Differentiation: The Seattle-based startup's Orbitron system uses magneto-electrostatic confinement, departing from mainstream tokamak and stellarator approaches. This targets compact, modular deployment rather than centralized grid-scale facilities. Investment Thesis Validation: Leading venture firms including Lowercarbon Capital, Founders Fund, and Toyota Ventures are backing alternative fusion pathways despite technical uncertainties. Washington State's $10M grant adds public sector confidence in the approach. Strategic Market Positioning: The 2027 Defense Innovation Unit timeline focuses on space applications, acknowledging near-term technical constraints while targeting specialized high-value markets. This represents pragmatic commercialization strategy rather than overpromising on terrestrial deployment. Technical Risk Assessment: While the 300,000V steady-state achievement addresses classical space-charge limitations in electrostatic fusion, fundamental physics and engineering challenges remain substantial. The approach requires validation at higher power levels and longer durations. Industry Implications: This development illustrates fusion research diversification beyond traditional approaches, potentially enabling distributed generation models if technical barriers are overcome. However, comparison with renewable energy scaling and cost trajectories remains challenging. Investment Considerations: The compact fusion sector attracts significant capital despite unproven commercial viability, reflecting investor appetite for breakthrough energy technologies and hedging strategies in clean energy portfolios. What's your assessment of distributed fusion potential compared to centralized renewable energy infrastructure investment? Technical analysis: https://lnkd.in/eAyAGKqw #CompactFusion #CleanTech #EnergyInnovation #VentureCapital #FusionTechnology #DistributedEnergy
Tiny Nuclear Reactor Could Power Your House Forever
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Engineering ITER - the most complex machine ever built In-Depth look In a giant black box on a hill in France, the world’s powers are working together to finally crack fusion energy. Andrew Wade reports from ITER. Read more here --> https://lnkd.in/euwHNSra
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🌍 The UK Clean Energy Summit 2025 - wrap up The afternoon spotlighted how the UK can harness clean power technologies to unlock economic growth. A dynamic panel chaired by Sarah Long CEng ChPP (AtkinsRéalis) brought together Stuart McKnight, Mark Solze, Steve Foxley, and Rob Gilbert to explore opportunities in decarbonising industries, offshore renewables, and sustainable aviation fuels - highlighting how regions like South Yorkshire can lead the way. The summit closed with powerful reflections from Ben Morgan (CEO, AMRC), capturing the key insights and opportunities shared throughout the day, before Professor Sue Hartley OBE formally wrapped up the event. The message was clear: clean energy isn’t just about sustainability - it’s about jobs, innovation, and growth across the UK and beyond. 💪🏽 National Manufacturing Institute Scotland NCC – Innovating for Industry MTC - Manufacturing Technology Centre The University of Sheffield South Yorkshire Mayoral Combined Authority #CleanEnergy #NetZero #Innovation #UKIndustry #Growth #Hydrogen #Nuclear
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"UK PM’s Office Announces the Joint Plan by Holtec International and EDF UK to Provide SMR-300s to Power Data Centers at the Cottam site in the Midlands" 🌍⚡ Holtec International and EDF UK have signed an MoU to deploy our SMR-300 small modular reactors at the historic Cottam site in Nottinghamshire. This landmark U.S.-UK partnership will: ✅ Provide clean, secure power for next-generation data centers ✅ Create thousands of skilled jobs and long-term community benefits ✅ Accelerate SMR deployment by building on lessons from our Palisades project in Michigan Together, we’re repowering the Midlands and driving the global clean energy transition. #CleanEnergy #SMR300 #NuclearInnovation #HoltecInternational #EDF #UKEnergy #DigitalFuture #AGenerationAheadByDesign https://lnkd.in/erm2fwvg
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