![]() This HPC effort will determine optimized device components (membrane, ionomer, catalyst, additives), their architecture (porosity, solid volume fractions, relative sizes), and operational parameters (temperature, current density). EvolOH and researchers from Lawrence Berkeley National Laboratory (LBNL) will use high-performance computing (HPC) resources to simulate a 3D representation of the electrolyzer cell using an existing microscale continuum model. However, inefficiencies and egradation are not yet minimized due to the complexity of the device. EvolOH’s novel pure-water anion-exchange-membrane (AEM) electrolyzer, featuring low system cost and made entirely of earth-abundant materials, is a transformational improvement over conventional electrolytic devices for producing clean hydrogen. ![]()
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