Effects of preparation methods of mesoporous ZnO on methanol steam reforming performances of ZnO supported Pd catalysts;

Optimization analysis of methanol steam reforming for hydrogen production

Effect of catalyst activity distribution on methanol steam reforming for hydrogen production

9%Pd/ZnO catalyst on the catalytic activity for steam reforming of methanol was investigated.

It was demonstrated that the SBA-15 modified catalyst exhibited superior performance in terms of methanol conversion and sup- pressed formation of CO during steam reforming of methanol.

The carbon nanotubes (CNTs) have been proposed as new effective promoters for preparing highly selective modified Cu/ZnO/Al 2O 3 catalysts for hydrogen production from steam reforming of methanol.

Production of hydrogen from the low-temperature methanol-steam reforming;

The intrinsic kinetics of methanol-steam reforming over Cu/ZnO/CeO/Al_2O_3 catalyst coatings was investigated in an annular micro-reactor that simulates the micro-channel reactor.

By applying the methanol-steam reforming reaction as a probe,the dependence of the catalytic properties on the sizes of the catalyst is investigated.

Progress in the investigation on mechanism of methanol steam reforming for hydrogen production

Performance Study of Hydrogen Production through Methanol Steam Reforming in the Microreactor;

Performance study of hydrogen production by methanol steam reforming in the micro-channel reactor

In order to intensify the process of methanol steam reforming, the effect of catalytic surface distribution on this reaction was investigated.

The catalytic performances for steam reforming of methanol reaction(SRM) were investigated and the structure and surface performances of the CuO-ZnO-ZrO_2-Y_2O_3 catalyst were characterized by XRD> TPR、 BET、 TPD、 TG-DTA、 UV、 TEM and IR techniques .