Ethanol steam reforming (ESR) is a promising reaction as a sustainable, carbon-neutral
hydrogen production process. Because of their high activity and low cost, Co-based and Ni …

Catalytic steam reforming of ethanol (CSRE) is an attractive mode of producing hydrogen as
an environmentally-friendly energy carrier. Ethanol can be produced from first-generation …

As the most value-added carbon nanomaterials, graphene and carbon nanotubes (CNTs)
have been widely studied and employed in a diverse assortment of applications due to their …

The steam reforming of bio-oil is a promising and economically feasible technology for the
sustainable H 2 production, yet with the main challenge of designing highly active and …

Producing hydrogen from ethanol steam reforming (ESR) is a carbon-neutral and
environment-friendly method, which has been expected to gradually reduce excessive …

Raman spectroscopy, as a rapid, high-precision, and nondestructive tool, can be used for
analyzing the samples from gas to solid, from ex situ to in situ, from organic macromolecule …

Liquid biofuels (LBFs) that are renewable and sulfur-free, are one important part of future
energy supplements. The advantage of ready availability of LBFs with high efficiencies and …

Co-pyrolysis of biomass and polyethylene (PE) wastes with different blending ratios were
performed in a bench-scale fixed bed over Ni/char catalyst. The synergistic mechanism …

Thermo-chemical conversion of carbonaceous wastes such as tyres, plastics, biomass and
crude glycerol is a promising technology compared to traditional waste treatment options (eg …

A challenge for scaling up hydrogen production by raw bio-oil steam reforming (SR) is the
rapid catalyst deactivation that is strongly sensitive to the temperature and bio-oil …