How do we build a world with abundant, affordable, carbon-free electricity?
That’s the question at the heart of Good Clean Energy, a podcast featuring interviews with scientists, innovators and energy experts working to transform the energy ecosystem and tackle climate change.
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How do we build a world with abundant, affordable, carbon-free electricity?
That’s the question at the heart of Good Clean Energy, a podcast featuring interviews with scientists, innovators and energy experts working to transform the energy ecosystem and tackle climate change.
Hosted on Acast. See acast.com/privacy for more information.
For decades, Field-Reversed Configurations (FRCs) have been one of the most attractive opportunities in fusion because of the large power output, but one of the biggest doubts was whether they scale to power plant conditions. Conventional wisdom says the higher the temperature, the less stable plasma would become.
But now according to TAE’s new paper, that roadblock has been cleared.
In this episode, TAE computational physicist Roelof Groenewald shares how he and his team overturned this long-standing assumption. Their research shows that — somewhat paradoxically — FRC plasmas actually become more stable as they heat up. Think of a spinning top or bicycle or basketball spinning on your finger that becomes more stable the faster it spins. This breakthrough, along with TAE’s other enabling technologies, has enormous implications for the future of clean energy.
(00:33) Introduction to plasma physics, FRCs, and the challenge of stability
(01:50) Comparing FRCs to other fusion approaches
(04:22) How FRCs generate their own magnetic fields
(05:45) Plasma beta, efficiency, and why FRCs are special
(06:41) Why not everyone builds FRCs
(07:16) Stability concerns and the tilt problem
(09:19) Rosenbluth’s findings and the challenge of scaling FRCs
(11:07) Correlation between fast and hot, kinetic energy, and particle speed
(12:16) Challenging the old theory with real machines and simulations
(15:10) Proving stability at scale, matching math to reality
(18:09) Introduction to the simulation code and exascale computing
(20:40) Scaling up, confidence in simulation, and future machine design
(21:00) Exploring beam configurations and simulation experiments
(24:06) Overcoming obstacles, commercialization, and Da Vinci prototype
Full show notes: https://tae.com/proving-frc-fusion-stability-at-scale-with-senior-scientist-roelof-groenewald/
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In this episode, Matthew Lipka from TAE’s Policy & Global Affairs team explores how policy is shaping and accelerating the future of fusion energy in the United States. He shares his work educating policymakers on the trade-offs between different energy technologies—and why government leadership is essential to advancing next-generation solutions. Compared to fission, fusion is a cleaner, safer energy source and the Nuclear Regulatory Commission has begun adapting its regulatory framework to reflect that lower risk. With rare bipartisan support, fusion is emerging not only as a climate solution, but as a pathway to energy security, economic growth and global leadership.
(02:27) Educating Lawmakers on Fusion
(03:18) Fusion vs. Fission: Key Differences
(06:28) Regulatory Progress for Fusion
(15:13) Future of Fusion: Funding and Investment
(19:58) Global Competition in Fusion Energy
Full transcript: https://tae.com/the-role-of-government-policy-in-advancing-fusion-with-tae-policy-global-affairs-matthew-lipka/
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In this episode, Kyoto Fusioneering co-founder Dr. Richard Pearson shares how his company is supplying the essential technology components others need to succeed. Rather than building reactors, Kyoto focuses on the “picks and shovels” of fusion, including systems such as:
Regardless of the fusion method, every reactor needs a robust system to contain, fuel and extract energy from plasma. As fusion inches closer to commercialization, Kyoto Fusioneering is addressing these universal engineering needs by positioning itself not as a competitor in the race to build reactors, but as the key supplier helping everyone win that race.
Full transcript: https://tae.com/unlocking-the-fusion-industry-supply-chain-with-kyoto-fusioneerings-richard-pearson/
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In this episode, TAE Director of Computational Science Sean Dettrick explores the groundbreaking role of simulation in advancing commercial fusion. Since joining TAE in 2002, Dettrick has led efforts to build a "digital twin" of fusion reactors—high-fidelity simulations that mirror the physical machines under development, allowing researchers to predict and optimize reactor behavior without physically constructing every variation.
These simulations are not just digital prototypes—they’re essential tools for understanding the intricate physics of plasma behavior, validating experimental data, and informing future designs.
TAE’s sixth-generation fusion machine, Copernicus, is still in development but Dettrick and his team have already seen it "operate" in the virtual world. Through simulations, they analyze how plasma reacts under various conditions, tweak system parameters, and test designs far faster and more flexibly than physical experiments allow.
As computational power has grown from teraflops to petaflops and now to the exascale frontier, so too has the capacity to simulate the six-dimensional complexity of plasma physics. Dettrick emphasizes that reaching commercial fusion will require continued advances in both computing and collaboration between theoretical and experimental scientists.
Looking ahead, Dettrick believes simulations will be crucial not only in building the first fusion power plants but in optimizing them for mass production—ensuring they’re not just functional, but also manufacturable.
Covered in this episode:
(01:30) The Role of Simulation in Fusion Research
(02:20) Building and Testing Fusion Reactors
(04:00) Digital Twins and High-Fidelity Models
(05:45) Complexities of Plasma Simulation
(08:10) Copernicus: The Sixth Generation Fusion Machine
(10:56) Advancements in Supercomputing
(18:15) Future of Fusion Simulation and Commercialization
Full transcript: https://tae.com/how-digital-simulations-lead-to-real-world-fusion/
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Good Clean Energy is a podcast that tackles one of the most existential questions of our time: how to build a world with abundant, affordable, carbon-free electricity. This season we’re going to unpack what TAE is working on to make fusion energy a reality.
In this episode, TAE Director of Diagnostics Thomas Roche discusses his groundbreaking paper that showcases a significant advancement in fusion energy research. The conversation delves into an experiment that drastically simplified TAE’s fusion research machine, leading to a first in the field. Roche explains how neutral beam injection replaced complex formation sections, reducing costs and complexity while improving performance. These developments mark a significant step towards creating efficient and economical fusion power plants in the future.
Covered in this episode:
(01:32) Understanding TAE's Fusion Reactor
(04:21) Innovative Experimentation and Breakthroughs
(07:21) Implications for Future Fusion Reactors
(09:36) Cost and Complexity Reductions
Learn more: TAE Delivers Fusion Breakthrough that Dramatically Reduces Cost of a Future Power Plant
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Good Clean Energy is a podcast that tackles one of the most existential questions of our time: how to build a world with abundant, affordable, carbon-free electricity. This season we’re going to unpack what TAE is working on to make fusion energy a reality.
In this episode, TAE CEO Michl Binderbauer dives deep into a specific fusion machine design called the Field-Reversed Configuration that TAE has pursued since the company's inception. He explains how the FRC works, its unique advantages, and how it differs from other magnetic-confinement approaches by allowing the plasma to generate its own magnetic field, reducing the need for expensive and cumbersome external magnets. Binderbauer details the difficulties of working with FRCs and describes the breakthroughs TAE has made in simplifying and stabilizing the process, paving the way for more practical and economically viable fusion power plants.
(00:41) Field-Reversed Configuration Explained
(01:51) Challenges and Solutions in FRC
(03:29) Technical Deep Dive into FRC
(06:04) Innovations and Achievements in FRC
Learn more: TAE Delivers Fusion Breakthrough that Dramatically Reduces Cost of a Future Power Plant
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Roughly 42% of energy-related carbon emissions come from households—our cars, water heaters, furnaces, dryers, cooktops and where we get our energy. Stephen Pantano, head of Market Transformation for Rewiring America, joins Good Clean Energy to explain how replacing fossil-fueled machines at home with electric ones is a critical and achievable strategy for reaching net zero emissions in the U.S.
Covered in this episode:
For show notes and a full transcript, head to the episode page.
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At COP28, U.S. Climate Envoy John Kerry announced a major fusion strategy for the world. Former U.S. Secretary of Energy Ernest Moniz joins Good Clean Energy from Dubai to break down this White House plan to bring fusion to market as fast as possible. For a full transcript, head to the episode page.
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Cement accounts for 8 percent of global CO2 emissions. The production of one ton of Portland cement — the kind most commonly used — results in one ton of CO2 released into the atmosphere. And since cement is exceptionally cheap and the most massively produced man-made material in the world, those emissions are going to grow. “In a do-nothing scenario, emissions from cement are projected to increase 50 percent between now and 2050,” says Dr. Leah Ellis, co-founder and CEO of Sublime Systems.
Ellis’ company is producing low-carbon cement by replacing the traditional high-temperature, fossil fuel, combustion-driven kiln with an electrochemical approach that operates at ambient temperature and uses renewable electricity.
“I like to say Sublime is the electric vehicle of cement making.”
Covered in this episode:
For show notes and a full transcript, head to the episode page.
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Anu Khan, Deputy Director of Science and Innovation at the nonprofit Carbon180, joins Good Clean Energy to discuss the ins and outs of removing carbon dioxide from the atmosphere.
Throughout the industrial era, we’ve emitted roughly 2 trillion tons of carbon dioxide, 1 trillion of which is still in the atmosphere today and is going to continue to cause warming for an extended period of time. Most of that warming is caused by the burning of fossil fuels for energy, and reducing emissions is crucial to keeping global warming below the goal of 2°C. But the challenge doesn’t end there. That’s where carbon dioxide removal comes in.
While there are a few ways to actually remove the carbon dioxide and there’s the question of who should really pay for it, it’s clear that CO2 removal is necessary. “It's fundamentally a climate justice solution, and carbon removed anywhere benefits everyone globally,” Khan said.
Covered in this episode:
For show notes and a full transcript, head to the episode page.
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What are the biggest challenges to widespread adoption of electric vehicles? Cost, range anxiety and charge time. Kedar Munipella, CEO of TAE Power Solutions, joins the show to talk about how his company solves for all that. Working with a radical new approach to power distribution, battery performance is optimized and charge time is reduced. That, in turn, will make EVs less expensive.
For show notes and a full transcript, head to the episode page.
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Industrial heat accounts for 25% of global energy consumption to make products ranging from steel to cement to paper and so many other things you've probably never thought about. It’s a huge chunk of our climate problem — and it’s uniquely hard to decarbonize. That’s where John O’Donnell’s company, Rondo Energy, steps in. Rondo is using hot bricks to store energy as heat. And since industrial processes need energy in the form of heat anyway, it’s a no-brainer. “It happens to be the world’s most efficient way of storing energy,” O’Donnell said of his technology.
For show notes and a full transcript, head to the episode page.
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Priya Donti, co-founder and executive director of Climate Change AI, joins Good Clean Energy to talk about the role AI and machine learning can play in transforming America's power grid to optimize clean power production and consumption.
For show notes and a full transcript, head to the episode page.
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Dr. Ernie Moniz, an acclaimed nuclear physicist and former U.S. Secretary of Energy, joins Good Clean Energy again to discuss the film “Oppenheimer” and the dawn of the nuclear age through the lens of today.
For show notes and a full transcript, head to the episode page.
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Willy Shih, Professor of Management Practice in Business Administration at Harvard Business School, joins Good Clean Energy to talk about the impact of the Inflation Reduction Act on reshoring manufacturing and how it can help the U.S. reassert itself as a leader in innovation, particularly in the transition to clean energy.
For show notes and a full transcript, head to the episode page.
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About 90 percent of the world's trade is transported by sea, on giant polluting cargo ships that burn particularly dirty oil. Last week, the International Maritime Organization, the UN body responsible for regulating global shipping, set a new CO2 reduction target for the industry to get to net zero by 2050. To help us make sense of the transition that will need to happen, Maria Gallucci, a clean energy reporter at Canary Media, joins Good Clean Energy to talk about new green fuels and technologies for the industry.
For a full transcript, head to the episode page.
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Paul Eremenko, co-founder and CEO of Universal Hydrogen, believes that there is a relatively simple way to solve the aviation industry’s carbon emissions problem. Today’s sustainable fuels aren’t really all that sustainable, he says, and electric planes, while great in theory, don’t scale. That leaves one obvious choice for Eremenko: green hydrogen. “There is a very significant sort of low-hanging fruit opportunity with no significant tech risk to put hydrogen in service and solve in one fell swoop half of aviation emissions problems by 2035,” Eremenko says.
Covered in this episode:
For show notes and a full transcript, head to the episode page.
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As a former chairman of the U.S. Nuclear Regulatory Commission with both a law background as well as a PhD in applied physics, Richard "Dick" Meserve is uniquely qualified to speak on the future of both nuclear fission and fusion in the U.S.
“We have a huge challenge in confronting climate change, and it's my view that we need to marshal all the resources we can to address it," says Meserve. "And that obviously includes a heavy emphasis on renewables, but you need a backup. You need firm power as a supplement to renewables. And nuclear is a natural component of that.”
For show notes and a full transcript, head to the episode page.
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Jamie Alexander is working to make capitalism compatible with a climate-safe world. Alexander is the director of Drawdown Labs, a branch of the nonprofit organization Project Drawdown that works directly with corporations to think beyond net zero and use their existing social, political, financial, and employee power to accelerate climate solutions at an unprecedented scale. "The more that companies can identify what their superpower is and use that to help the world get closer to our climate goals — that's where I think capitalism and climate change are going to meet in the middle.”
For show notes and a full transcript, head to the episode page.
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Jane Hotchkiss, the president and cofounder of nonprofit Energy for the Common Good, is on a mission to educate the public about the promise of fusion and to support the buildout of a future fusion energy sector. For the full transcript, head to the episode page.
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