A German research team are looking into ways of producing synthetic fuels from wind power, seawater and ambient air which ...

I n a significant advancement for integrated clean energy systems, NuScale Power Corporation, in collaboration with GSE ...

GSE Solutions, a leader in advanced engineering solutions supporting clean energy production and decarbonization initiatives in the power industry, today announced it has developed a hydrogen fuel ...

Stellar Market Research examines the growth rate of the Power-To-Gas Market during the forecasted period 2025-2032 The Power-To-Gas Market is projected to grow at a compound annual growth rate (CAGR) ...

The efficient production of hydrogen, a versatile and sustainable energy carrier, is paramount for transitioning to a clean energy future. Electrolysis, a key technology for hydrogen production, ...

With high-temperature electrolysis, thyssenkrupp nucera is strengthening its hydrogen technology portfolio for industrial applications. The electrolysis stacks are manufactured in the pilot production ...

High-temperature electrolysis is a technology that decomposes water using electricity at temperatures above 700 degrees Celsius to produce hydrogen and oxygen.

Researchers have elucidated the mechanism of the initial degradation phenomenon that triggers the performance drop of high-temperature solid oxide electrolysis cell systems, using advanced ...

High-temperature electrolysis takes place at temperatures above 700 °C, and offers the greatest advantages where waste heat is available: no precious metals are required to catalyze the reactions, and ...

A new oxide catalyst coating technique significantly enhances the performance of solid oxide fuel cells, tripling their efficiency. This breakthrough technology is versatile and can be applied to ...

Thin ceramic electrolysis cells (0.3 mm) containing new long-lasting Ni-GDC electrodes have been developed for integration in stacks where electricity can split water. The water is supplied as ...