Recent progress in ethanol steam reforming using non-noble transition metal catalysts: A review
Ethanol steam reforming (ESR) is a promising reaction as a sustainable, carbon-neutral
hydrogen production process. Because of their high activity and low cost, Co-based and Ni …
hydrogen production process. Because of their high activity and low cost, Co-based and Ni …
[HTML][HTML] Liquid organic hydrogen carrier hydrogenation–dehydrogenation: from ab initio catalysis to reaction micro-kinetics modelling
The continued selective focus on the exploitation of fossil fuel chemicals as one of the main
environment-depleting sources of energy is one of the reasons for the carbon dioxide …
environment-depleting sources of energy is one of the reasons for the carbon dioxide …
Techno-economic analysis and optimization of a novel hybrid solar-wind-bioethanol hydrogen production system via membrane reactor
With the rapid development of hydrogen fuel cell vehicles, efficient and convenient
production of green hydrogen is important to reduce carbon emissions. Considering the …
production of green hydrogen is important to reduce carbon emissions. Considering the …
Process intensification in the oil and gas industry: A technological framework
Abstract Implementation of Process Intensification (PI) in the oil and gas (O&G) represents
the most promising way to achieve sustainable development of this industry in an …
the most promising way to achieve sustainable development of this industry in an …
CFD Simulation of a Hydrogen-Permeable Membrane Reactor for CO2 Reforming of CH4: The Interplay of the Reaction and Hydrogen Permeation
A symmetric two-dimensional computational fluid dynamic model of a catalytic membrane
reactor for dry reforming of methane is built up. A nondimensionalization method is …
reactor for dry reforming of methane is built up. A nondimensionalization method is …
Recent advances in materials for high purity H2 production by ethanol and glycerol steam reforming
This review focuses on the recent advances in CO 2 adsorbents and H 2 permselective
membranes that can be integrated to catalytic ethanol and glycerol steam reforming for …
membranes that can be integrated to catalytic ethanol and glycerol steam reforming for …
A new design of catalytic tube reactor for hydrogen production from ethanol steam reforming
A new design of the catalytic tube system with a crossflow configuration, featured by low
catalyst usage and cost, is developed using computational fluid dynamics (CFD) …
catalyst usage and cost, is developed using computational fluid dynamics (CFD) …
[HTML][HTML] Palladium-alloy membrane reactors for fuel reforming and hydrogen production: Hydrogen Production Modeling
Endeavors have recently been concentrated on minimizing the dependency on fossil fuels in
order to mitigate the ever-increasing problem of greenhouse gas (GHG) emissions …
order to mitigate the ever-increasing problem of greenhouse gas (GHG) emissions …
Multi-scale modeling and simulation of low-pressure methane bi-reforming using structured catalytic reactors
F Minette, J De Wilde - Chemical Engineering Journal, 2021 - Elsevier
Methane bi-reforming has gained interest recently for its potential of converting CH 4 and
CO 2 into chemicals while avoiding catalyst deactivation by coke formation. Recycling CO 2 …
CO 2 into chemicals while avoiding catalyst deactivation by coke formation. Recycling CO 2 …
Hydrogen permeation in a palladium membrane tube: Impacts of outlet and vacuum degree
Palladium (Pd) membranes are a crucial device for separating hydrogen and are usually
operated at normal pressure on the permeate side with a single outlet. Instead of these …
operated at normal pressure on the permeate side with a single outlet. Instead of these …