A new study offers a more efficient, greener method for making ammonia using only nitrogen from the air and water, with help ...

Speeding up chemical reactions is key to improving industrial processes or mitigating unwanted or harmful waste. Realizing ...

The porous ceramics have long played a role in high-performance filtration, insulation, and catalysis across a wide range of industrial sectors. In Europe, the market for porous ceramics is ...

Japanese researchers revealed that a novel palladium-loaded amorphous InGaZnOx (a-IGZO) catalyst converted carbon dioxide to ...

The proposal is to blend up to 20% of hydrogen gas in existing natural gas pipelines at the university’s recreation center to power equipment.

And if the hydrogen itself is “green”—meaning it’s made through renewable-­powered electrolysis rather than the conventional technique of mixing natural gas and steam—the climate impact ...

Georgia Power successfully blended hydrogen and natural gas at Plant McDonough, reducing emissions by 22% in a clean energy milestone for the future.

In recent years, the discovery of small amounts of hydrogen gas underground has spurred a worldwide search for what could prove to be a significant new source of zero-carbon fuel, but so far ...

This is the first demonstration that validates a 50% hydrogen fuel blending with natural gas and the largest test of this kind to date.

Conditions at Leesville Lake could result in the release of unhealthy hydrogen sulfide gases, the U.S. Army Corps of Engineers said.

Georgia Power and Mitsubishi Power have collaborated on the world’s largest hydrogen fuel blending demonstration to date on an advanced class gas turbine.

Unfortunately, large-scale production of hydrogen using this method is currently unfeasible due to the need for catalysts made from expensive rare earth metals.