A research team led by Dr. Kee Young Koo from the Hydrogen Research Department at the Korea Institute of Energy Research (President: Yi Chang-Keun ...

Using this information, the team designed a novel thermal catalytic system for low-temperature decomposition of ammonia to hydrogen assisted by easily producible Ru/CeO 2 catalyst and DC electric ...

They tested ammonia decomposition using a catalyst of the latest generation provided by Clariant. The team consisting of Dr. Maximilian Purcel, ...

New insights into ammonia decomposition Date: October 8, 2024 Source: Ruhr-University Bochum Summary: Using ammonia is regarded as a promising method of transporting hydrogen.

Ammonia (NH3) can be decomposed to produce hydrogen gas without releasing CO2. The ease of transport and high hydrogen density make it valuable for the green energy industry. A drawback of using ...

This novel catalyst exhibits 2.5-times higher ammonia decomposition performance than conventional commercial catalysts and achieves this efficiency while using only 40% of ruthenium metal.

To generate pure hydrogen from ammonia, the decomposition of ammonia is carried out at a temperature above 600℃ using a ruthenium (Ru) catalyst, followed by the purification of hydrogen through ...

Another ammonia decomposition method that is still in the research phase is plasma decomposition. Similarly, hydrogen can also be produced from ammonia using ammonia electrolysis.

Using this information, the team designed a novel thermal catalytic system for low-temperature decomposition of ammonia to hydrogen assisted by easily producible Ru/CeO 2 catalyst and DC electric ...

They tested ammonia decomposition using a catalyst of the latest generation provided by Clariant. Part of the research team: Maximilian Purcel (left) and Martin Muhler.