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Publications by Satoshi SAKAIDA

Scale Model Experiments for Evaluation of Liquid Water Transport in the Gas Diffusion Layer of PEFCs

Journal of Thermal Science and Technology
Materials ScienceInstrumentationMolecular Physics,EngineeringAtomicOptics
2018English

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Liquid Water Transport in Gas Diffusion Layer of Polymer Electrolyte Fuel Cells

Journal of the Electrochemical Society
SurfacesCondensed Matter PhysicsOpticalElectrochemistrySustainabilityMaterials ChemistryMagnetic MaterialsRenewable EnergyFilmsCoatingsElectronicthe Environment
2004English

Effect of Gas Diffusion Layer Deformation on Liquid Water Transport in Proton Exchange Membrane Fuel Cell

Engineering Applications of Computational Fluid Mechanics
ModelingComputer ScienceSimulation
2014English

Modeling the Liquid Water Transport in the Gas Diffusion Layer for Polymer Electrolyte Membrane Fuel Cells Using a Water Path Network

Energies
ControlElectronic EngineeringEnergy EngineeringRenewable EnergyEnergyFuel TechnologySustainabilityOptimizationElectricalPower Technologythe Environment
2013English

Influence of Water Transport Properties Through Gas Diffusion Layer on Flooding in PEFC

Transactions of the Materials Research Society of Japan
2008English

Liquid Water Saturation and Oxygen Transport Resistance in Polymer Electrolyte Membrane Fuel Cell Gas Diffusion Layers

Electrochimica Acta
Chemical EngineeringElectrochemistry
2018English

Performance and Liquid Water Distribution in PEFCs With Different Anisotropic Fiber Directions of the GDL

Journal of Power Sources
Electronic EngineeringSustainabilityEnergy EngineeringRenewable EnergyTheoretical ChemistryElectricalPower Technologythe EnvironmentPhysical
2011English

Interpretation of Tracer Surface Diffusion Experiments on UO2 — Roles of Gas and Solid Transport Processes

Journal of Nuclear Materials
High Energy PhysicsMaterials ScienceEngineeringNuclear EnergyNuclear
1981English

Analysis of Water Diffusion in White Matter Using a Hydration Layer Model

English

Enhancing PEM Water Electrolysis Efficiency by Reducing the Extent of Ti Gas Diffusion Layer Passivation

Journal of Applied Electrochemistry
Materials ChemistryChemical EngineeringElectrochemistry
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