Add to ORKGThis chapter provides a brief introduction to the state of art in the use of bimetallic and alloy catalysts as well as bed reactors in alcohol and bio-alcohol reforming. Among hydrogen production systems, alcohol and bio-alcohol reforming is considered one of the most suitable routes, due to the high yields at low temperature, the non-toxic characteristics of the reactant and the renewable sources making the widespread diffusion in energy production processes possible. However, the efficiency of hydrogen production strongly depends on the control of the formation of unwanted by-products, that generally occur at low temperatures. Thus, a great deal of attention has been given over recent years to the preparation and study of properly designe...
There is actually an intense research in ethanol dry reforming because bioethanol and carbon dioxide...
Biomass such as ethanol and glycerol has emerged as an alternative feedstock for hydrogen (H2) produ...
This study focuses on the development of bimetallic structured catalysts, supported on CeO2 and CeO2...
This chapter provides a brief introduction to the state of art in the use of bimetallic and alloy ca...
Bio-ethanol reforming is a type of promising technology for hydrogen production, which is focused on...
The production of hydrogen through the low temperature-ethanol steam reforming (LT-ESR) reaction req...
Hydrogen is considered one of the energy carriers of the future due to its high mass-based calorific...
Hydrogen represents a promising fuel since it is considered as a cleanest energy carrier and also...
Summarization: Among the various technologies which have been proposed for production of hydrogen, s...
Ethanol reforming is considered as a very interesting process for hydrogen production, particularly ...
In this paper, the impact of the main contaminants of bioethanol (C2H4O, C3H7OH, C4H9OH and C5H11OH)...
Considerable work has been reported concerning catalytic steam reforming, partial oxidation and oxid...
In recent years, hydrogen production from renewable feed-stocks attracts particular attention. Speci...
This was a university-based research project in support of distributed reforming production technolo...
There is actually an intense research in ethanol dry reforming because bioethanol and carbon dioxide...
Biomass such as ethanol and glycerol has emerged as an alternative feedstock for hydrogen (H2) produ...
This study focuses on the development of bimetallic structured catalysts, supported on CeO2 and CeO2...
This chapter provides a brief introduction to the state of art in the use of bimetallic and alloy ca...
Bio-ethanol reforming is a type of promising technology for hydrogen production, which is focused on...
The production of hydrogen through the low temperature-ethanol steam reforming (LT-ESR) reaction req...
Hydrogen is considered one of the energy carriers of the future due to its high mass-based calorific...
Hydrogen represents a promising fuel since it is considered as a cleanest energy carrier and also...
Summarization: Among the various technologies which have been proposed for production of hydrogen, s...
Ethanol reforming is considered as a very interesting process for hydrogen production, particularly ...
In this paper, the impact of the main contaminants of bioethanol (C2H4O, C3H7OH, C4H9OH and C5H11OH)...
Considerable work has been reported concerning catalytic steam reforming, partial oxidation and oxid...
In recent years, hydrogen production from renewable feed-stocks attracts particular attention. Speci...
This was a university-based research project in support of distributed reforming production technolo...
There is actually an intense research in ethanol dry reforming because bioethanol and carbon dioxide...
Biomass such as ethanol and glycerol has emerged as an alternative feedstock for hydrogen (H2) produ...
This study focuses on the development of bimetallic structured catalysts, supported on CeO2 and CeO2...