A review of recent catalyst advances in CO2 methanation processes
This review focuses on various catalytic CO 2 hydrogenation approaches for converting CO
2 to fuels such as CH 4. The catalytic CO 2 methanation using thermal, catalytic-membrane …
2 to fuels such as CH 4. The catalytic CO 2 methanation using thermal, catalytic-membrane …
Modern technologies of hydrogen production
I Stenina, A Yaroslavtsev - Processes, 2022 - mdpi.com
Transitioning to energy-saving and renewable energy sources is impossible without
accelerated development of hydrogen energy and hydrogen technologies. This review …
accelerated development of hydrogen energy and hydrogen technologies. This review …
Advances in hydrogen selective membranes based on palladium ternary alloys
ML Bosko, A Dalla Fontana, A Tarditi… - International Journal of …, 2021 - Elsevier
Hydrogen containing a minimum amount of contaminants is required for its application in
fuel-cell technology. For this purpose, palladium and palladium binary alloy membranes …
fuel-cell technology. For this purpose, palladium and palladium binary alloy membranes …
Ultra-thin (~ 1 μm) Pd–Cu membrane reactor for coupling CO2 hydrogenation and propane dehydrogenation applications
Coupling of dehydrogenation reactions (propane dehydrogenation) and CO 2
hydrogenation reactions in a membrane reactor has synergetic effect on the overall …
hydrogenation reactions in a membrane reactor has synergetic effect on the overall …
Catalytic Pd0. 77Ag0. 23 alloy membrane reactor for high temperature water-gas shift reaction: Methane suppression
A catalytic membrane reactor was constructed using inner coated Pd 0.77 Ag 0.23 (mass
fraction) alloy membrane on Al 2 O 3 hollow fiber substrate, prepared by electroless plating …
fraction) alloy membrane on Al 2 O 3 hollow fiber substrate, prepared by electroless plating …
Facile integration of core–shell catalyst and Pd-Ag membrane for hydrogen production from low-temperature dry reforming of methane
Dry reforming of methane (DRM) is an important way of conversion of CH 4 and CO 2, two
greenhouse gases, for the production of hydrogen. In this study, a catalytic membrane …
greenhouse gases, for the production of hydrogen. In this study, a catalytic membrane …
Tailoring the activation behaviour and oxide resistant properties of TiFe alloys by do** with Mn
Ti–Fe alloy is the most investigated material for H 2 storage, however, the poor activation
kinetics and surface oxide formation limits its practical application. Herein, Mn substituted Ti …
kinetics and surface oxide formation limits its practical application. Herein, Mn substituted Ti …
Pd-Ag-Cu dense metallic membrane for hydrogen isotope purification and recovery at low pressures
Purification and recovery of hydrogen isotopes using palladium based dense metallic
membranes is of utmost importance in fusion fuel clean-up systems. Permeation behavior of …
membranes is of utmost importance in fusion fuel clean-up systems. Permeation behavior of …
Study of isotope effect on dehydrogenation kinetics of Pd based alloys using differential scanning calorimetry
Owing to the large hydrogen isotope effect, palladium and palladium based alloy are of
great technological importance for their application in separation of hydrogen isotopes. The …
great technological importance for their application in separation of hydrogen isotopes. The …
Catalytic membrane reactors for alkane dehydrogenation applications: an integration of catalysis and separation process
Catalytic dehydrogenation of saturated hydrocarbons to corresponding alkenes by the
release of the stoichiometric amount of hydrogen is the paramount solution for safe storage …
release of the stoichiometric amount of hydrogen is the paramount solution for safe storage …