Ethanol Steam Reforming in a Two-Step Process. Short-Time Feasibility Tests

Abstract: This paper describes a two-step process for hydrogen generation consisting of low-temperature (573 K) dehydrogenation of ethanol over copper chromite, followed by steam reforming (SR) over Ni/MgO at higher temperature (923 K). Advantages compared to direct SR of ethanol comprise suppression of coke formation. Water also moderates the rate of reduction of copper and promotes the stability of copper chromite at temperatures below 673 K. The two-step process requires a quantity of catalyst for the low-temperature… Show more

“…Hydrogen has been termed as the "energy carrier of the future" 1 , and ethanol is a "clean" energy carrier that can be produced from renewable energy sources and has a reasonably high hydrogen content 2 . Hydrogen generation by ethanol steam reforming is a potential means to give a one-way hydrogen supply for fuel cell applications 3,4 .…”

Steam Reforming of Ethanol by a Nickel Nanowire Catalyst

“…Hydrogen has been termed as the "energy carrier of the future" 1 , and ethanol is a "clean" energy carrier that can be produced from renewable energy sources and has a reasonably high hydrogen content 2 . Hydrogen generation by ethanol steam reforming is a potential means to give a one-way hydrogen supply for fuel cell applications 3,4 .…”

Steam Reforming of Ethanol by a Nickel Nanowire Catalyst

Biogas reforming process investigation for SOFC application

Pyrolysis of different biomass: Direct comparison among Posidonia Oceanica, Lacustrine Alga and White-Pine