Anagrafe della ricerca

The first configuration will be designed to be compatible with Solydera's automated manufactruing line, promoting mass production and decreasing production costs. The second one is an advanced 3D-printed short stack, integrating meral supports and interconnects to enhance gas and temperature uniformity, reduce contact resistances, and simplify the stack architecture, simplifying the manufacturing process. A strong emphasis will be placed on identifying, studying and prevent degradation mechanisms, both at experimental and modelling level, extending systems operational lifetime. A fully integrated and optimized BoP will be designed and simulated using Aspen tools, incorporating heat management and dual steam feeds with the goal of maximizing system efficiency and enabling a scalable 20??kW electrolysis prototype. The project integrates material innovation, advanced manufacturing, system-level optimization, and sustainability assessments to lower hydrogen production cost and environmental impact. Key outputs include two validated stack designs, TEA and LCA, and roadmaps for scale-up and market deployment.