Scientists achieve stunning energy breakthrough with tech borrowed from video games: 'A crucial technological innovation'
Scientists at the Ulsan National Institute of Science and Technology in South Korea developed an algorithm to improve the efficiency and stability of fusion energy, Interesting Engineering reported.
The algorithm detects particle collisions in fusion energy reactors — which disrupt the fusion process — 15 times faster than previous detection methods.
Fusion, the U.S. Department of Energy explains, is a form of nuclear energy. It differs from other forms of nuclear energy –– such as fission –– that require extractive uranium mining and produce radioactive waste.
While fission generates energy by splitting atoms, fusion does so by combining them. This process of combining atoms does not create waste, according to the U.S. Department of Energy.
Two hydrogen atoms fuse into one helium atom in fusion, and this reaction occurs and generates energy on the sun, the U.S. Department of Energy describes. But producing this reaction on our planet requires an immense amount of pressure and extremely high temperatures, which is why fusion energy is still being researched and not yet available as power, according to the International Atomic Energy Agency.
While fusion energy needs further development, the scientists' breakthrough is a step toward application. The team used video game collision detection methods — which work by calculating the distance between two objects before they collide — as inspiration for the algorithm.
The researchers applied and tested their algorithm on Virtual KSTAR, a digital replica of a fusion reactor called KSTAR in South Korea. They found that the algorithm reduced the calculations required to predict particle collisions in fusion reactors by 99.9%, Interesting Engineering reported, making the reactors more efficient and stable.
The team hopes to further develop the algorithm and explore the use of supercomputers to make it even more efficient, according to Interesting Engineering.
Fusion energy –– with breakthroughs such as the algorithm –– could provide a clean alternative to dirty energy, producing nearly 4 million times more energy per kilogram of fuel than coal or oil, according to the International Atomic Energy Agency.
"The collision detection algorithm we developed serves as a crucial technological innovation," Ulsan National Institute of Science and Technology professor Eisung Yoon said.
Should we be digging into the ground to find new energy sources?
Definitely
No way
As long as it's not near me
As long as it's clean energy
Click your choice to see results and speak your mind.
Join our free newsletter for weekly updates on the latest innovations improving our lives and shaping our future, and don't miss this cool list of easy ways to help yourself while helping the planet.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
9 hours ago
- Yahoo
North America Hydrogen Pumps Market Report 2025-2030: Government Policy Push for Clean Energy Transition Driving Hydrogen Infrastructure Growth
The U.S. and Canadian governments are actively supporting hydrogen infrastructure through grants, tax incentives, and collaborative partnerships. Investment is surging in regions like California, reflecting a broader trend in hydrogen station development. Advancements in hydrogen compression, dispensing technologies, and multi-sector applications such as rail, maritime, and stationary energy storage are also fueling demand. As part of North America's clean energy transition, hydrogen pumps are poised to become a central component of sustainable energy systems. North American Hydrogen Pumps Market Dublin, June 03, 2025 (GLOBE NEWSWIRE) -- The "North America Hydrogen Pumps Market, By Country, Competition, Forecast and Opportunities 2020-2030F" report has been added to North America Hydrogen Pumps Market was valued at USD 0.92 Billion in 2024, and is expected to reach USD 1.24 Billion by 2030, rising at a CAGR of 5.17% This market encompasses the manufacturing, deployment, and maintenance of hydrogen pump systems used primarily in fueling stations for hydrogen-powered vehicles and industrial applications. These pumps serve as essential infrastructure for safe and efficient hydrogen transfer. Market growth is being driven by the increasing push toward zero-emission transportation and widespread decarbonization efforts. Hydrogen fuel cell technology, particularly in heavy-duty vehicles where battery-electric solutions are limited, is gaining momentum. Government Policy Push for Clean Energy Transition Driving Hydrogen Infrastructure GrowthThe North America hydrogen pumps market is witnessing robust growth due to proactive government initiatives in support of clean energy. Authorities across the United States and Canada are promoting hydrogen infrastructure as a vital tool for achieving decarbonization goals. Programs such as the U.S. Department of Energy's Hydrogen Shot initiative aim to drastically reduce the cost of clean hydrogen, catalyzing investment in hydrogen ecosystems, including pump stations. Simultaneously, Canadian regions like British Columbia and Quebec are advancing strategic hydrogen deployment plans with infrastructure rollouts. This strong policy backing reduces barriers for private investment and encourages a broad spectrum of market incentives, including grants and subsidies, are lowering the risk profile of hydrogen infrastructure projects, accelerating development in the early market stages. Furthermore, public investments serve as a validation of hydrogen's role in the energy landscape, fostering greater industry confidence. Notably, over USD 2 billion was allocated in 2023 by the U.S. Department of Energy for hydrogen initiatives under the Infrastructure Investment and Jobs Act, including more than USD 200 million earmarked specifically for fueling infrastructure like Capital Investment Requirements and Uncertain Return on InvestmentA major hurdle in the North America hydrogen pumps market is the substantial capital required to establish pump-equipped refueling infrastructure. Building hydrogen stations involves high costs related to pressurization systems, safety mechanisms, specialized components, and regulatory compliance. The investment for a single station can surpass USD 2 million, making financial feasibility a concern, especially amid low fuel cell vehicle adoption rates that limit short-term revenue potential. Unlike established conventional fuel networks, hydrogen stations often experience low utilization, leading to long payback periods. This financial risk deters private investment unless offset by public subsidies or shared-risk business models. The cost-intensiveness and slow return on investment continue to challenge market expansion and of Hydrogen Pumps into Multi-Fuel Refueling StationsAn emerging trend in the North America hydrogen pumps market is the incorporation of hydrogen dispensing units into multi-fuel refueling stations. Traditionally isolated due to technical requirements, hydrogen systems are now being integrated alongside gasoline, diesel, and electric vehicle charging setups. This co-location strategy helps optimize space usage, broaden fuel offerings, and streamline the transition toward low-emission mobility. It also enhances convenience for consumers and reduces operational costs for station operators. This integrated approach supports the growing need for diversified energy solutions and accelerates the commercial viability of hydrogen refueling infrastructure. Key Attributes: Report Attribute Details No. of Pages 120 Forecast Period 2024 - 2030 Estimated Market Value (USD) in 2024 $0.92 Billion Forecasted Market Value (USD) by 2030 $1.24 Billion Compound Annual Growth Rate 5.1% Regions Covered North America Report Scope:Competitive LandscapeCompany Profiles: Detailed analysis of the major companies present in the North America Hydrogen Pumps Market. Parker Hannifin Corporation KSB SE & Co. KGaA Sulzer Ltd. Neuman & Esser Group Flowserve Corporation ITT Inc. Emerson Electric Co. Atlas Copco AB North America Hydrogen Pumps Market, By Type: Mechanical Electronic North America Hydrogen Pumps Market, By Application: Low Flow Rate Pumps Medium Flow Rate Pumps North America Hydrogen Pumps Market, By Country: United States Canada Mexico For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. Attachment North American Hydrogen Pumps Market CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
10 hours ago
- Yahoo
North America Hydrogen Pumps Market Report 2025-2030: Government Policy Push for Clean Energy Transition Driving Hydrogen Infrastructure Growth
The U.S. and Canadian governments are actively supporting hydrogen infrastructure through grants, tax incentives, and collaborative partnerships. Investment is surging in regions like California, reflecting a broader trend in hydrogen station development. Advancements in hydrogen compression, dispensing technologies, and multi-sector applications such as rail, maritime, and stationary energy storage are also fueling demand. As part of North America's clean energy transition, hydrogen pumps are poised to become a central component of sustainable energy systems. North American Hydrogen Pumps Market Dublin, June 03, 2025 (GLOBE NEWSWIRE) -- The "North America Hydrogen Pumps Market, By Country, Competition, Forecast and Opportunities 2020-2030F" report has been added to North America Hydrogen Pumps Market was valued at USD 0.92 Billion in 2024, and is expected to reach USD 1.24 Billion by 2030, rising at a CAGR of 5.17% This market encompasses the manufacturing, deployment, and maintenance of hydrogen pump systems used primarily in fueling stations for hydrogen-powered vehicles and industrial applications. These pumps serve as essential infrastructure for safe and efficient hydrogen transfer. Market growth is being driven by the increasing push toward zero-emission transportation and widespread decarbonization efforts. Hydrogen fuel cell technology, particularly in heavy-duty vehicles where battery-electric solutions are limited, is gaining momentum. Government Policy Push for Clean Energy Transition Driving Hydrogen Infrastructure GrowthThe North America hydrogen pumps market is witnessing robust growth due to proactive government initiatives in support of clean energy. Authorities across the United States and Canada are promoting hydrogen infrastructure as a vital tool for achieving decarbonization goals. Programs such as the U.S. Department of Energy's Hydrogen Shot initiative aim to drastically reduce the cost of clean hydrogen, catalyzing investment in hydrogen ecosystems, including pump stations. Simultaneously, Canadian regions like British Columbia and Quebec are advancing strategic hydrogen deployment plans with infrastructure rollouts. This strong policy backing reduces barriers for private investment and encourages a broad spectrum of market incentives, including grants and subsidies, are lowering the risk profile of hydrogen infrastructure projects, accelerating development in the early market stages. Furthermore, public investments serve as a validation of hydrogen's role in the energy landscape, fostering greater industry confidence. Notably, over USD 2 billion was allocated in 2023 by the U.S. Department of Energy for hydrogen initiatives under the Infrastructure Investment and Jobs Act, including more than USD 200 million earmarked specifically for fueling infrastructure like Capital Investment Requirements and Uncertain Return on InvestmentA major hurdle in the North America hydrogen pumps market is the substantial capital required to establish pump-equipped refueling infrastructure. Building hydrogen stations involves high costs related to pressurization systems, safety mechanisms, specialized components, and regulatory compliance. The investment for a single station can surpass USD 2 million, making financial feasibility a concern, especially amid low fuel cell vehicle adoption rates that limit short-term revenue potential. Unlike established conventional fuel networks, hydrogen stations often experience low utilization, leading to long payback periods. This financial risk deters private investment unless offset by public subsidies or shared-risk business models. The cost-intensiveness and slow return on investment continue to challenge market expansion and of Hydrogen Pumps into Multi-Fuel Refueling StationsAn emerging trend in the North America hydrogen pumps market is the incorporation of hydrogen dispensing units into multi-fuel refueling stations. Traditionally isolated due to technical requirements, hydrogen systems are now being integrated alongside gasoline, diesel, and electric vehicle charging setups. This co-location strategy helps optimize space usage, broaden fuel offerings, and streamline the transition toward low-emission mobility. It also enhances convenience for consumers and reduces operational costs for station operators. This integrated approach supports the growing need for diversified energy solutions and accelerates the commercial viability of hydrogen refueling infrastructure. Key Attributes: Report Attribute Details No. of Pages 120 Forecast Period 2024 - 2030 Estimated Market Value (USD) in 2024 $0.92 Billion Forecasted Market Value (USD) by 2030 $1.24 Billion Compound Annual Growth Rate 5.1% Regions Covered North America Report Scope:Competitive LandscapeCompany Profiles: Detailed analysis of the major companies present in the North America Hydrogen Pumps Market. Parker Hannifin Corporation KSB SE & Co. KGaA Sulzer Ltd. Neuman & Esser Group Flowserve Corporation ITT Inc. Emerson Electric Co. Atlas Copco AB North America Hydrogen Pumps Market, By Type: Mechanical Electronic North America Hydrogen Pumps Market, By Application: Low Flow Rate Pumps Medium Flow Rate Pumps North America Hydrogen Pumps Market, By Country: United States Canada Mexico For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. Attachment North American Hydrogen Pumps Market CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
4 days ago
- Yahoo
'How hard can it be?' Nvidia CEO on leap to supercomputing
STORY: :: Nvidia's CEO compares his company's push into supercomputing to his mom driving a car :: Stanford, California :: May 29, 2025 :: John Hennessy, Former president, Stanford University 'It's a big leap going from being a graphics company to being a supercomputer company. That's a big leap of different business, it requires a lot more system expertise, more software expertise. So how do you think about assembling a team? Because that really had to change the…" :: Jensen Huang, Nvidia CEO 'It drives all the same way. So first, you (say) 'Hey we can do this.' And so it always starts with this: 'Hey, guys, this we can do this.' And we can do it. So you start with a dream, and the next thing, the next logical leap is: how hard can it be? I always start every meeting with 'Hey guys we should start building cars.' It's sensible, we have computer vision now, you know, planning algorithms (unintelligible). Let's do it. And then somebody goes, 'we don't know anything about cars.' Well, how hard can it be? And so I think the clincher on that one is my mom can drive. HENNESSY: 'Yeah, actually, humans are pretty good drivers. Look at it...' HUANG: 'I know my mom shouldn't, but she can. And so, how hard can it be? And so the supercomputers were all the same thing. You know, we just… A.I., how hard can it be? And so we just kind of just go into it.' His remarks came the same day the U.S. Department of Energy announced that Nvidia and Dell will supply core technology for 'Doudna,' a new supercomputer to be installed in 2026 at Lawrence Berkeley National Laboratory. The event also came amid renewed political scrutiny of Nvidia's global operations, including bipartisan concern in Washington over the company's planned R&D facility in Shanghai.
