Solid oxide electrolysis cells (SOECs), a key technology for producing green hydrogen without carbon emissions, require a ...

PEM water electrolysis for hydrogen production is regarded as a core technological pathway for producing "green hydrogen" due to its outstanding advantages, including high hydrogen purity (exceeding ...

Low-Carbon Benefits: Achieving full-chain process, injecting 136 Nm³ of hydrogen per ton of iron, solid fuel replacement ratio 0.36~1.0 kg/Nm³, reducing carbon emissions from blast furnace ironmaking ...

Wastewater can replace clean water as a source for hydrogen production, eliminating a major drawback to hydrogen fuel and ...

HTEC has opened the Burnaby Clean Hydrogen Production Facility on Oct. 24, home to British Columbia’s first commercial-scale ...

The DWP board approved an $800-million plan to convert two units at the Scattergood Generating Station in Playa del Rey to ...

The cell produced this way generated 23.7 mL of hydrogen per minute at 750 degrees and operated stably for more than 250 ...

Asahi Kasei has announced the official approval of new facilities at its Kawasaki Works to manufacture electrolysis system ...

Solid oxide electrolysis cells (SOECs), a key technology for producing green hydrogen without carbon emissions, require a high-temperature ...

The Princeton team has identified a way to use reclaimed wastewater instead of ultrapure water to produce green hydrogen via ...