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Advances in Materials and Manufacturing for Scalable and Decentralized Green Hydrogen Production Systems

Gabriella Stefánia Szabó, Florina-Ambrozia Coteț, Sàra Ferenci, Loránd Szabó

2026Journal of Manufacturing and Materials Processing6 citationsDOIOpen Access PDF

Abstract

The expansion of green hydrogen requires technologies that are both manufacturable at a GW-to-TW power scale and adaptable for decentralized, renewable-driven energy systems. Recent advances in proton exchange membrane, alkaline, and solid oxide electrolysis reveal persistent bottlenecks in catalysts, membranes, porous transport layers, bipolar plates, sealing, and high-temperature ceramics. Emerging fabrication strategies, including roll-to-roll coating, spatial atomic layer deposition, digital-twin-based quality assurance, automated stack assembly, and circular material recovery, enable high-yield, low-variance production compatible with multi-GW power plants. At the same time, these developments support decentralized hydrogen systems that demand compact, dynamically operated, and material-efficient electrolyzers integrated with local renewable generation. The analysis underscores the need to jointly optimize material durability, manufacturing precision, and system-level controllability to ensure reliable and cost-effective hydrogen supply. This paper outlines a convergent approach that connects critical-material reduction, high-throughput manufacturing, a digitalized balance of plant, and circularity with distributed energy architectures and large-scale industrial deployment.

Topics & Concepts

ScalabilityRenewable energyHydrogen productionProcess engineeringControllabilityComputer scienceStack (abstract data type)Production (economics)Power to gasInterfacingElectricity generationEngineeringNanotechnologyHydrogen economyPhotovoltaic systemScale (ratio)Public recordsEnergy carrierFabricationEnergy storageSystems engineeringReuseBrayton cyclePower (physics)Efficient energy useAutomationHybrid Renewable Energy SystemsAdvancements in Solid Oxide Fuel CellsCatalysts for Methane Reforming
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