Recent years have seen an enormous amount of funding directed toward fuel cell research
and development based on different fuel sources and fuel cell types. The number of small …

This review paper first discusses the needs for fundamental changes in the energy system
for major efficiency improvements in terms of global resource limitation and sustainable …

Ethanol electrooxidation was investigated at platinum based electrodes: Pt, Pt—Sn, Pt—Re
dispersed on a high surface area carbon powder. The atomic composition of the bimetallic …

The growing demand for clean and efficient energy systems is the driving force in the
development of fuel processing technology for providing hydrogen or hydrogen-containing …

A new series of CuZnAl (Zr)-oxide catalysts were prepared by the decomposition of CuZnAl
(Zr)-hydroxycarbonate precursors containing hydrotalcite (HT)-like layered double hydroxide …

Steam reforming of methanol over a commercial Cu/ZnO/Al2O3 catalyst was studied at
atmospheric pressure and in a temperature range between 160 and 260° C. The reaction …

Catalytic reaction of steam reforming of dimethyl ether (DME) to hydrogen-rich gas was
studied in a fixed-bed continuous-flow reactor at a temperature of 200–360° C under …

The influence of CO2 on the performance of PEM fuel cells was investigated by means of
fuel cell experiments and cyclic voltammetry. Depending on the composition and …

Adopting a unique integrated engineering approach, this text covers all aspects of fuel
processing: catalysts, reactors, chemical plant components and integrated system design …

On-board generation of hydrogen by methanol reforming is an efficient and practical option
to fuel PEMFC especially for vehicle propulsion purpose. The methanol reforming can take …