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

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

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, ...

Thyssenkrupp Nucera has opened the first pilot production plant for solid oxide electrolysis cell (SOEC) stacks for high-temperature electrolysis in Arnstadt, Germany, in partnership with ...

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

The UT will work in 6 different projects with various consortium partners on i) improved membranes for alkaline electrolysis (Lammertink/De Vos), ii) development of design and operational protocols to ...

Hydrogen Production via High-Temperature Solid Oxide Electrolysis (SOEC) Principle: SOEC can theoretically be regarded as the reverse operation of a Solid Oxide Fuel Cell (SOFC). It operates at high ...

Nuclear’s hydrogen combination An IAEA report into nuclear hydrogen examines the implications of combining nuclear with renewables to power electrolysis. It finds that while nuclear is well suited to ...

Samsung E&A has embarked on the demonstration project for high-temperature electrolysis facilities in collaboration with the Korea Institute of Science and Technology (KIST).

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

The Hydrogen Micro Hub is a facility that produces hydrogen by applying a high-temperature electrolysis process of solid oxide electrolysis cells (SOEC) to the electricity and high-temperature steam ...