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Archive for the ‘transportation’ category: Page 8

Oct 9, 2024

NamX Unveil First Hydrogen Energy Car with 5-Second Refuel, 1,500 Kilometer Range

Posted by in categories: energy, sustainability, transportation

NamX revolutionizes sustainable transportation with its innovative Hydrogen Utility Vehicle (HUV) and pioneering CapXtores hydrogen distribution system. Discover how NamX’s cutting-edge technology and strategic partnerships are shaping the future of hydrogen-powered mobility, promising a greener and more sustainable world.

Oct 9, 2024

Mahle and Deutz Unite to Redefine Mobility with Hydrogen Engines, Moving Beyond Electric Vehicles

Posted by in categories: energy, sustainability, transportation

German automotive parts giant MAHLE has secured its first order from combustion engine manufacturer DEUTZ to develop and supply components for hydrogen engines. This milestone collaboration, described by MAHLE CEO Arnd Franz as a significant advancement in the automotive industry, signals a growing shift towards sustainable energy alternatives beyond electric vehicles.

Oct 9, 2024

Scientists develop revolutionary material that could unlock next-level efficiency for existing engines: ‘It opens the door for new possibilities’

Posted by in categories: chemistry, energy, sustainability, transportation

Hydrogen fuel, which produces no heat-trapping air pollution at the point of use, could be the future of clean energy. But first, some of the technology around still has to be improved, and researchers at the University of Alberta believe they have made an important step in that direction, AL Circle reported.

The breakthrough out of the University of Alberta is a new alloy material — dubbed AlCrTiVNi5 — that consists of metals such as aluminum and nickel. The alloy has great potential for coating surfaces that have to endure extremely high temperatures, such as gas turbines, power stations, airplane engines, and hydrogen combustion engines.

Continue reading “Scientists develop revolutionary material that could unlock next-level efficiency for existing engines: ‘It opens the door for new possibilities’” »

Oct 9, 2024

Modeling system could enable future generations of self-sensing materials

Posted by in categories: robotics/AI, transportation

Research that eliminates the guesswork in developing advanced 3D printed materials could help accelerate the development of new forms of “self-sensing” airplanes, robots, bridges and more.

Oct 9, 2024

The First Water Engine

Posted by in categories: sustainability, transportation

Innovations in engine technology are making water a potential fuel source, leveraging hydrogen extracted from H₂O.


Toyota’s latest breakthrough in sustainable mobility — the world’s first water engine. Departing from conventional hydrogen-powered vehicles, this groundbreaking innovation operates at an unprecedented temperature of 2500°C, thanks to its ingenious water-cooled design. But that’s not all — equipped with a special dual injection system, this engine delivers unparalleled efficiency and performance.

Continue reading “The First Water Engine” »

Oct 7, 2024

Transforming seaweeds into raw materials for aviation fuel and pharmaceuticals

Posted by in categories: chemistry, energy, engineering, transportation

A new technology has been developed to convert common seaweeds such as Kkosiraegi, which are often used in cooking, into high-quality sources for both bio-aviation fuels and energy storage devices. The results were published in the Chemical Engineering Journal.

Oct 6, 2024

Lightning fast charger: Fortescue 6 MW DCFC for electric heavy equipment

Posted by in category: transportation

Fortescue has an all-new 6 MW DC fast charger that can charge a massive 230 ton haul truck’s 1,900 kWh battery in less than thirty minutes!

Oct 6, 2024

Toyota unveils its secret and shocks the world: This engine is both combustion and zero-emission

Posted by in categories: energy, sustainability, transportation

In a surprise revelation, Toyota has sent shockwaves throughout the automotive world with an all-new engine that melds combustion technology with the potential for zero emissions. This stealth development may transform our thinking about green energy and the future of transportation. For two decades, the world has been struggling over what the road to sustainable transport would look like, and to date, EVs have proven a front-runner. However, Toyota’s latest development puts a monkey wrench into that thinking by suggesting that a hydrogen-powered combustion engine may be what carries us into the future.

While Toyota is no stranger to innovation—it gave the world its first mass-produced hybrid, the Prius, back in 1997—it has traditionally taken a more cautious approach toward anything resembling an electric vehicle. Less conservatively speaking, the hydrogen-powered combustion engine signifies a quantum leap. This latest motor technology is based on a variant of the same 1.6-liter turbocharged three-cylinder used in its GR Corolla and GR Yaris. Instead, it relies on hydrogen, not traditional gasoline, to run the engine, making it cleaner than conventional combustion engines.

This innovative engine could also hold the key to one of the most significant challenges for the car-making industry: balancing high performance with sustainability. While electric cars take away that visceral experience from driving enthusiasts, Toyota’s hydrogen engine ensures a gasoline-powered car’s rumble, response, and mechanical integrity. The company tested it thoroughly through the grueling conditions of motorsports, including endurance events such as the Fuji 24 Hours.

Oct 4, 2024

Carbon Fiber Structural Battery Paves way for Light, Energy-Efficient Vehicles

Posted by in categories: chemistry, computing, mobile phones, sustainability, transportation

When cars, planes, ships or computers are built from a material that functions as both a battery and a load-bearing structure, the weight and energy consumption are radically reduced. A research group at Chalmers University of Technology in Sweden is now presenting a world-leading advance in so-called massless energy storage — a structural battery that could halve the weight of a laptop, make the mobile phone as thin as a credit card or increase the driving range of an electric car by up to 70% on a single charge.

“We have succeeded in creating a battery made of carbon fiber composite that is as stiff as aluminum and energy-dense enough to be used commercially. Just like a human skeleton, the battery has several functions at the same time,” says Chalmers researcher Richa Chaudhary, who is the first author of an article recently published in Advanced Materials.

Research on structural batteries has been going on for many years at Chalmers, and in some stages also together with researchers at the KTH Royal Institute of Technology in Stockholm, Sweden. When Professor Leif Asp and colleagues published their first results in 2018 on how stiff, strong carbon fibers could store electrical energy chemically, the advance attracted massive attention.

Oct 2, 2024

Scientists develop a new model of electric double layer

Posted by in categories: sustainability, transportation

A new model accounts for a wide range of ion-electrode interactions and predicts a device’s ability to store electric charge. The model’s theoretical predictions align with the experimental results. Data on the behavior of the electric double layer (EDL) can aid in the development of more efficient supercapacitors for portable electronics and electric vehicles. The study has been published in ChemPhysChem.

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