Research progress on CO removal in methanol reformed gases;

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

γ-Al2O3 supported size controlled platinum nanoparticle catalysts synthesized by reduction of H2PtCl6 solution with nitromethane at room temperature have been investigated for steam reforming of methanol as a reaction probe.