Hydrogen as an energy vector
Hydrogen is known as a technically viable and benign energy vector for applications
ranging from the small-scale power supply in off-grid modes to large-scale chemical energy …
ranging from the small-scale power supply in off-grid modes to large-scale chemical energy …
[HTML][HTML] Electrocatalysts for the generation of hydrogen, oxygen and synthesis gas
FM Sapountzi, JM Gracia, HOA Fredriksson… - Progress in Energy and …, 2017 - Elsevier
Water electrolysis is the most promising method for efficient production of high purity
hydrogen (and oxygen), while the required power input for the electrolysis process can be …
hydrogen (and oxygen), while the required power input for the electrolysis process can be …
[PDF][PDF] Hydrogen production by water electrolysis: a review of alkaline water electrolysis, PEM water electrolysis and high temperature water electrolysis
Water electrolysis is a quite old technology started around two centuries back, but promising
technology for hydrogen production. This work reviewed the development, crisis and …
technology for hydrogen production. This work reviewed the development, crisis and …
Interfacial Tensions, Solubilities, and Transport Properties of the H2/H2O/NaCl System: A Molecular Simulation Study
Data for several key thermodynamic and transport properties needed for technologies using
hydrogen (H2), such as underground H2 storage and H2O electrolysis are scarce or …
hydrogen (H2), such as underground H2 storage and H2O electrolysis are scarce or …
Hydrogen costs from water electrolysis at high temperature and pressure
Green hydrogen demand will increase in the coming decades, and water electrolysis can
enable low-or zero-carbon production pathways. High-temperature and pressure operation …
enable low-or zero-carbon production pathways. High-temperature and pressure operation …
The catalytic mechanics of dynamic surfaces: stimulating methods for promoting catalytic resonance
Transformational catalytic performance in rate and selectivity is obtainable through catalysts
that change on the time scale of catalytic turnover frequency. In this work, dynamic catalysts …
that change on the time scale of catalytic turnover frequency. In this work, dynamic catalysts …
Modeling and performance optimization of a solid oxide electrolysis system for hydrogen production
AA AlZahrani, I Dincer - Applied Energy, 2018 - Elsevier
This article presents electrochemical and thermodynamic modeling and optimization of a
high temperature solid oxide electrolysis (SOE) system for hydrogen and oxygen production …
high temperature solid oxide electrolysis (SOE) system for hydrogen and oxygen production …
Thermodynamic and electrochemical analyses of a solid oxide electrolyzer for hydrogen production
AA AlZahrani, I Dincer - International Journal of Hydrogen Energy, 2017 - Elsevier
In this paper, a modeling of the Solid Oxide Electrolysis Cell (SOEC), through energetic,
exergetic and electrochemical modeling approaches, is conducted, and its performance …
exergetic and electrochemical modeling approaches, is conducted, and its performance …
Two-dimensional model of low-pressure PEM electrolyser: Two-phase flow regime, electrochemical modelling and experimental validation
Based on proton conduction of polymeric electrolyte membrane (PEM) technology, the
Polymer Electrolyte Membrane Water Electrolyser (PEMWE) offers an interesting solution for …
Polymer Electrolyte Membrane Water Electrolyser (PEMWE) offers an interesting solution for …
Assessment of sustainable high temperature hydrogen production technologies
D Guban, IK Muritala, M Roeb, C Sattler - International Journal of Hydrogen …, 2020 - Elsevier
Apart from being a major feedstock for chemical production, hydrogen is also a very
promising energy carrier for the future energy. Currently hydrogen is predominantly …
promising energy carrier for the future energy. Currently hydrogen is predominantly …