Hydrogen production by steam reforming of methanol for polymer electrolyte fuel cells

The use of renewable biomass, such as ethylene glycol (EG), for hydrogen production offers a more sustainable system compared to natural gas and petroleum reforming. For the first time, the reaction thermodynamics of steam reforming and sorption enhanced steam reforming of EG have been investigated.

## Abstract In the present study, a series of Ir‐based catalysts, supported on Al~2~O~3~, ZrO~2~, CeO~2~, and Ce~x~Zr~1‐x~O~2~, are investigated for the production of hydrogen by the high temperature steam reforming of methanol (SRM). Results show that CeO~2~ and Ce~x~Zr~1‐x~O~2~ can promote the CO

Processes and technologies to produce hydrogen synergistically by the nuclear-heated steam reforming reaction of fossil fuels are reviewed. Formulas of chemical reactions, required heats for reactions, saving of fuel consumption, reduction of carbon dioxide emission, and possible processes are inves

## of methanol ZrO 2 CeO 2 TPR a b s t r a c t Single ZrO 2 and mixed CeO 2 eZrO 2 oxides with different CeO 2 /ZrO 2 ratios were prepared by the solegel method and the CeO 2 by precipitation. The prepared support were impregnated with an aqueous solution of NiCl 2 $6H 2 O at an appropriate concen