Transition to low carbon societies requires advanced catalysis and reaction engineering to
pursue green routes for fuels and chemicals production as well as CO 2 conversion. This …

Use of spinel materials in heterogeneous catalysis is highly attractive because of their
unique properties, including their high thermal and chemical stability, good electrical …

The energy transition can also be promoted by the sustainable use of biomass. Residual
biomass in the Mediterranean areas can be exploited to a greater extent through highly …

The coupling between biomass gasification and Solid Oxide Fuel Cells can represent a
sustainable and efficient system for electricity production. This work aims to develop a …

Catalytic reforming is a promising technology for the removal of tar from syngas. However,
due to the presence of other impurities such as H 2 S, HCl, HBr, siloxanes, alkali metals, and …

This study demonstrates applicability of the distribution of relaxation times (DRT)
methodology to reveal more precise analysis of processes that occur in solid-oxide fuel …

Nowadays the most important issues for commercial SOFC systems are related to their
durability and stability of performance both of which are affected by fuel feeding composition …

In this study, hydrogen production using food waste was optimized by investigating the effect
of agitator types in anaerobic digestion reactors and catalysts for biogas reforming. The …

This study proposes the steam reforming of a synthetic biogas stream containing 200 ppm of
H 2 S, carried out in a non-commercial supported Pd–Au/Al 2 O 3 membrane reactor (7–8 …

The coke deposition, a major challenge in the dry reforming of methane process (DRM), was
investigated over the different Ni-based catalysts varied, Ni loading 5–12.5 wt% over γ-Al 2 …