Add to ORKGReduction of the emissions originating from mobile sources such as internal combustion engines has attracted much attention recently [1]. The combustion of hydrogen in a fuel cell is regarded as a clean process, providing energy and releasing only water as exhaust [1]. Methanol can be employed as a storage and transport medium for hydrogen. Its advantage
The use of hydrogen as an energy vector and raw material for “very clean liquid fuels” manufacturing...
Vehicles powered by proton exchange membrane (PEM) fuelcells are approaching commercialisation. Bein...
Production of H-2 from methanol oxidative steam reforming (OSRM) over Zn-Cr, high or low Cu-loading ...
The Cu-based catalysts with different supports (CeO2, ZrO2 and CeO2-ZrO2) for methanol steam reformi...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Hydrogen energy is one of the most active substitutes for fuel cell energy. At present, it is a good...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Hydrogen production through methanol reforming processes has been stimulated over the years due to i...
The copper-zinc-zirconium cemen-tcontaining catalysts for steam reforming of methanol were prepared....
Methanol steam reforming is a promising technology for producing hydrogen for onboard fuel cell appl...
Abstract: Hydrogen production from steam reforming of methanol was performed in an adiabatic fixed b...
This PhD thesis deals with the catalytic hydrogen production for mobile application, for example for...
Production of H2 from methanol by steam reforming, partial oxidation, or a combination thereof was s...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
Production of hydrogen by methanol steam reforming has been studied over a series of Cu/ZrO2 catalys...
The use of hydrogen as an energy vector and raw material for “very clean liquid fuels” manufacturing...
Vehicles powered by proton exchange membrane (PEM) fuelcells are approaching commercialisation. Bein...
Production of H-2 from methanol oxidative steam reforming (OSRM) over Zn-Cr, high or low Cu-loading ...
The Cu-based catalysts with different supports (CeO2, ZrO2 and CeO2-ZrO2) for methanol steam reformi...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Hydrogen energy is one of the most active substitutes for fuel cell energy. At present, it is a good...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Hydrogen production through methanol reforming processes has been stimulated over the years due to i...
The copper-zinc-zirconium cemen-tcontaining catalysts for steam reforming of methanol were prepared....
Methanol steam reforming is a promising technology for producing hydrogen for onboard fuel cell appl...
Abstract: Hydrogen production from steam reforming of methanol was performed in an adiabatic fixed b...
This PhD thesis deals with the catalytic hydrogen production for mobile application, for example for...
Production of H2 from methanol by steam reforming, partial oxidation, or a combination thereof was s...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
Production of hydrogen by methanol steam reforming has been studied over a series of Cu/ZrO2 catalys...
The use of hydrogen as an energy vector and raw material for “very clean liquid fuels” manufacturing...
Vehicles powered by proton exchange membrane (PEM) fuelcells are approaching commercialisation. Bein...
Production of H-2 from methanol oxidative steam reforming (OSRM) over Zn-Cr, high or low Cu-loading ...