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Archive for the ‘energy’ category: Page 174

Jan 12, 2022

Bio-inspired ceramic–metal composite stands its ground against cutting tools

Posted by in categories: energy, materials

Circa 2020


Harnessing the destructive potential of force and rotation, cutting tools like saws, drills, and angle grinders can obliterate the superlative properties that materials work so hard to perfect. And even when materials are designed to work against the power of these tools, the materials still often fail.

Continue reading “Bio-inspired ceramic–metal composite stands its ground against cutting tools” »

Jan 10, 2022

Sun Metals taps gravity energy storage tech in shift to “green zinc”

Posted by in category: energy

Korea Zinc’s boosts bid to make its Australian operations greenest in the world, in deal with Swiss “giga-scale” energy storage company, Energy Vault.

Jan 9, 2022

Hydrogen-powered aircraft may be getting a lift

Posted by in categories: energy, transportation

Cutting the weight of fuel tanks and continuing advances in fuel-cell technologies are key to making hydrogen competitive in aviation.

Jan 9, 2022

Nanoparticles Will Give You Superhuman Night Vision

Posted by in categories: energy, nanotechnology

Circa 2019


Want superhero powers that let you see in the dark just like your cat? In the near future you may be able to—as long as you’re not too squeamish to get injections right into your eyeballs.

Continue reading “Nanoparticles Will Give You Superhuman Night Vision” »

Jan 8, 2022

Sweden Pushes For Real Green Steel

Posted by in categories: energy, sustainability

HYBRIT and H2 Green Steel have launched projects in Sweden with a target to manufacture 10 million tonnes (mt) of fossil fuel-free crude (green) steel per year by 2030. Success, of course, depends on the numbers adding up, or rather, the numbers going down.

To make green steel, you need green hydrogen; to make green hydrogen, you need cheap renewable energy. HYBRIT and H2 Green Steel believe this will come from wind power at a LCOE of $30 per megawatt-hour. With the trajectory of costs for renewable energy going ever downward, it is likely they will be able to achieve this.

Add to the mix the increasing costs of carbon and the pressure to decarbonize, and you have a winner. It is expected that a carbon credits will be available to green steel producers of around $85 per ton.

Jan 8, 2022

How Hydrogen Could Solve the Energy Crisis: Bloomberg Green

Posted by in category: energy

Hydrogen is the simplest element in the universe. And excitement is growing from nations and investors looking to harness its power to make clean, green energy. In this edition of Bloomberg Green, we speak to Australian billionaire Andrew Forrest about his big pivot from dirty coal to clean hydrogen. And Snam CEO Marco Alvera talks to us about his price target for the gas over the next decade. Plus, we break down the difference between gray, blue and green hydrogen, and speak to our BloombergNEF analysts about the possible limitations of the gas.

Jan 7, 2022

RWE and Audi to build energy storage facility with second-life EV batteries

Posted by in categories: energy, sustainability, transportation

RWE is using used lithium batteries from electric vehicles in the new storage unit. The 60 battery systems in the innovative storage unit on the site of the RWE pumped storage power plant in Herdecke, North Rhine-Westphalia, can buffer around 4.5 megawatt hours of electricity.

Jan 7, 2022

‘Ocean battery’ targets renewable energy dilemma

Posted by in categories: energy, sustainability

A wind turbine sitting idle on a calm day or spinning swiftly when power demand is already met poses a problem for renewables, and is one researchers think can be tackled under the sea.

In one vision, could use seawater to essentially store until it’s needed, helping wean humanity off fossil fuels.

“We came up with a solution that we call the battery,” Frits Bliek, CEO of Dutch startup Ocean Grazer told AFP while showing off the at the CES tech fair in Las Vegas.

Jan 7, 2022

They say that good things take time, but the James Webb Space Telescope is well on its way to exploring the universe!

Posted by in categories: energy, space

🚀

In the two weeks since its launch on December 25 at 7:20 am ET, Webb has successfully completed many milestones:

✨ Webb released and deployed its solar array, which means the telescope went off battery power and began to use its own generated power.
✨ Webb has had two planned mid-course correction burns. Webb was launched on a direct path to an orbit around the second Lagrange Point (L2), but its trajectory required correction maneuvers to get there.
✨ The 5-layer sunshield has been fully deployed and tensioned. Did we mention it is the size of a tennis court? 🤯
✨ Webb’s secondary mirror, which plays an important role in reflecting light collected by the primary mirror into the telescope’s instruments, has been deployed.

Jan 7, 2022

Scientists reduce all-solid-state battery resistance

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

All-solid-state batteries are now one step closer to becoming the powerhouse of next-generation electronics, as researchers from Tokyo Tech, National Institute of Advanced Industrial Science and Technology (AIST), and Yamagata University introduce a strategy to restore their low electrical resistance. They also explore the underlying reduction mechanism, paving the way for a more fundamental understanding of the workings of all-solid-state lithium batteries.

All-solid-state lithium batteries have become the new craze in and engineering as conventional lithium-ion batteries can no longer meet the standards for advanced technologies, such as electric vehicles, which demand high energy densities, fast charging, and long cycle lives. All-solid-state batteries, which use a instead of a liquid electrolyte found in traditional batteries, not only meet these standards but are comparatively safer and more convenient as they have the possibility to charge in a short time.

However, the solid electrolyte comes with its own challenge. It turns out that the interface between the positive electrode and solid electrolyte shows a large electrical whose origin is not well understood. Furthermore, the resistance increases when the electrode surface is exposed to air, degrading the battery capacity and performance. While several attempts have been made to lower the resistance, none have managed to bring it down to 10 Ω cm2 (ohm centimeter-squared), the reported interface resistance value when not exposed to air.