Membranes | Free Full-Text | Hydrogen Separation and Purification from Various Gas Mixtures by Means of Electrochemical Membrane Technology in the Temperature Range 100–160 °C
Hydrogen Separation Membrane - an overview | ScienceDirect Topics
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PDF) Design calculations and parametric analysis of a membrane permeator for hydrogen-helium separation
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Processes | Free Full-Text | A Novel Process of H2/CO2 Membrane Separation of Shifted Syngas Coupled with Gasoil Hydrogenation
Hydrogen Separation Membrane - an overview | ScienceDirect Topics
Membrane gas separation - Wikipedia
Adsorption separation of heavier isotope gases in subnanometer carbon pores | Nature Communications
Processes | Free Full-Text | Optimal Design of a Two-Stage Membrane System for Hydrogen Separation in Refining Processes
Hybrid Separation Process of Refinery Off-gas toward Near-Zero Hydrogen Emission: Conceptual Design and Techno-economic Analysis | Industrial & Engineering Chemistry Research
PDF) Chapter 11. Advances in Hydrogen Separation and Purification with Membrane Technology
Gas chromatography techniques to evaluate the hydrogen permeation characteristics in rubber: ethylene propylene diene monomer | Scientific Reports
Membranes for hydrogen separation: a significant review | SpringerLink
Current and future trends in polymer membrane-based gas separation technology: A comprehensive review - ScienceDirect
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Membranes | Free Full-Text | Hydrogen Separation and Purification from Various Gas Mixtures by Means of Electrochemical Membrane Technology in the Temperature Range 100–160 °C
Methane Pyrolysis for Zero-Emission Hydrogen Production: A Potential Bridge Technology from Fossil Fuels to a Renewable and Sustainable Hydrogen Economy | Industrial & Engineering Chemistry Research
Designing energy-efficient separation membranes: Knowledge from nature for a sustainable future - ScienceDirect
Membranes | Free Full-Text | Hydrogen Separation and Purification from Various Gas Mixtures by Means of Electrochemical Membrane Technology in the Temperature Range 100–160 °C
Polymeric molecular sieve membranes via in situ cross-linking of non-porous polymer membrane templates | Nature Communications
Membranes | Free Full-Text | Hydrogen Separation and Purification from Various Gas Mixtures by Means of Electrochemical Membrane Technology in the Temperature Range 100–160 °C
Hydrogen Separation Membrane - an overview | ScienceDirect Topics
