Steam and dry reforming of hydrocarbons (e.g., methane, ethane or propane), alcohols (e.g., methanol, ethanol or glycerol) or bio-compounds is one of the most promising and effective routes to enhanced hydrogen production and for the production of synthesis gas likewise.[...
The product mixture formed during reforming of all kind of fuels such as hydrocarbons and alcohols i...
In view of the escalating global warming phenomenon, utilization of CO2 has become an important eve...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
Steam and dry reforming of hydrocarbons (e.g., methane, ethane or propane), alcohols (e.g., methanol...
Hydrogen is a zero-carbon energy carrier for the deployment of fuel cell technologies in distributed...
Virtually all hydrogen produced today is sourced from fossil fuels, with the principal method employ...
Natural gas (Methane) is currently the primary source of catalytic hydrogen production, accounting f...
Trabajo presentado en la European Hydrogen Energy Conference - EHEC, celebrada en Sevilla (España) d...
Hydrogen represents a promising fuel since it is considered as a cleanest energy carrier and also...
Dry reforming of ethanol and glycerol using CO2 are promising technologies for H2 production while ...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
The catalytic steam reforming of oxygenated hydrocarbons has been holding an interest in scientific ...
The steam reforming of hydrous ethanol may be the next source of hydrogen for PEM fuel cells. A disc...
The catalytic steam reforming of oxygenated hydrocarbons has been holding an interest in scientific ...
Dry reforming of ethanol and glycerol using CO2 are promising technologies for H2 production while m...
The product mixture formed during reforming of all kind of fuels such as hydrocarbons and alcohols i...
In view of the escalating global warming phenomenon, utilization of CO2 has become an important eve...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
Steam and dry reforming of hydrocarbons (e.g., methane, ethane or propane), alcohols (e.g., methanol...
Hydrogen is a zero-carbon energy carrier for the deployment of fuel cell technologies in distributed...
Virtually all hydrogen produced today is sourced from fossil fuels, with the principal method employ...
Natural gas (Methane) is currently the primary source of catalytic hydrogen production, accounting f...
Trabajo presentado en la European Hydrogen Energy Conference - EHEC, celebrada en Sevilla (España) d...
Hydrogen represents a promising fuel since it is considered as a cleanest energy carrier and also...
Dry reforming of ethanol and glycerol using CO2 are promising technologies for H2 production while ...
Hydrogen is conventionally manufactured in large scale by the steam reforming of methane or naphthas...
The catalytic steam reforming of oxygenated hydrocarbons has been holding an interest in scientific ...
The steam reforming of hydrous ethanol may be the next source of hydrogen for PEM fuel cells. A disc...
The catalytic steam reforming of oxygenated hydrocarbons has been holding an interest in scientific ...
Dry reforming of ethanol and glycerol using CO2 are promising technologies for H2 production while m...
The product mixture formed during reforming of all kind of fuels such as hydrocarbons and alcohols i...
In view of the escalating global warming phenomenon, utilization of CO2 has become an important eve...
Tremendous research efforts have been dedicated towards development and utilization of sustainable a...
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