A multiphysics model of the compactly-assembled industrial alkaline water electrolysis cell

“…1 In this context, the generation of hydrogen through water electrolysis using applied electricity offers a renewable and environmentally friendly pathway for transitioning into the hydrogen economy. 2 Among various methods for hydrogen generation, alkaline water electrolysis cells (AWECs) stand out as the most industrially mature technology. 3 Particularly, oxygen evolution reactions (OERs) for electrocatalytic water-splitting involve a stepwise proton transfer process, which is considered a crucial step in the water electrolysis reaction with a high overpotential.…”

Water-surface reconstruction of sulfurized spinel-structured oxide oxygen catalysts for alkaline water electrolysis

“…1 In this context, the generation of hydrogen through water electrolysis using applied electricity offers a renewable and environmentally friendly pathway for transitioning into the hydrogen economy. 2 Among various methods for hydrogen generation, alkaline water electrolysis cells (AWECs) stand out as the most industrially mature technology. 3 Particularly, oxygen evolution reactions (OERs) for electrocatalytic water-splitting involve a stepwise proton transfer process, which is considered a crucial step in the water electrolysis reaction with a high overpotential.…”

Water-surface reconstruction of sulfurized spinel-structured oxide oxygen catalysts for alkaline water electrolysis

Dynamic parameter estimation of the alkaline electrolysis system combining Bayesian inference and adaptive polynomial surrogate models

Sensitivity analysis of the process conditions affecting the shunt currents and the SEC in an industrial-scale alkaline water electrolyzer plant