The Hydrogen Council has said that deployed at scale, hydrogen from all sources could account for as much as 20% of energy consumed by 2050, with annual demand approaching 20 billion tons—a ...

This dramatic growth in hydrogen production and use prompts a need for accurate and cost-effective hydrogen flow measurements able to support a wide range of applications (Figure 1). This article ...

Andrews and colleagues used a "proton flow battery" concept, in which protons are combined with electrons in an alloy and are stored in metal hydride form, rather than converted to hydrogen gas.

The novel concept developed by researchers at RMIT University advances the potential for hydrogen to replace lithium as an energy source in battery-powered devices. The proton flow battery concept ...

Princeton Uni engineers have identified how to control the flow of hydrogen gas inside a newly designed fuel cell to control its power output. Previously, controlling the hydrogen flow rate was ...

Hydrogen, the emerging clean energy source, will play a key role in the long-term sustainability of energy-intensive manufacturing, processing, and transportation industries. Regardless of the ...

Just as hydrogen fuel cell vehicles – big and small – start heading to the road, researchers at RMIT University in Melbourne, Australia, have come up with the concept of a proton flow battery ...

Proton has a way to make clean hydrogen at an anticipated production cost below $0.30 US per kg with a lower carbon intensity than wind or solar to electrolysis.

The novel concept developed by researchers at RMIT University advances the potential for hydrogen to replace lithium as an energy source in battery-powered devices. The proton flow battery concept ...