E. Newson scite author profile

Fuel cell powered electric cars using on-board methanol reforming to produce a hydrogen-rich gas represent a low-emissions alternative to gasoline internal combustion engines (ICE). In order to exceed the well-to-wheel efficiencies of 17% for the gasoline ICE, high-efficiency fuel cells and methanol reformers must be developed. Catalytic autothermal reforming of methanol o †ers advantages over endothermic steam-reforming and exothermic partial oxidation. Microreactor testing of copper-containing catalysts was carried out in the temperature range between 250 and 330 ¡C showing nearly complete methanol conversion at 85% hydrogen yield. For the overall process a simpliÐed model of the reaction network, consisting of the total oxidation of methanol, the reverse water-gas shift reaction, and the steam-reforming of methanol, is proposed. Individual kinetic measurements for the latter two reactions on a commercial catalyst are presented. Cu/ZnO/Al 2 O 3

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Seasonal storage of hydrogen in stationary systems with liquid organic hydrides

Newson

1998

International Journal of Hydrogen Energy

120

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Kinetics and fixed‐bed reactor modeling of butane oxidation to maleic anhydride

Sharma¹,

Cresswell²,

Newson³

1991

AIChE Journal

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Catalyst Deactivation Due to Pore-Plugging by Reaction Products

Newson¹

1975

Ind. Eng. Chem. Proc. Des. Dev.

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Economic analysis of the seasonal storage of electricity with liquid organic hydrides

Scherer

Newson

Wokaun

1999

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E. Newson

Autothermal methanol reforming for hydrogen production in fuel cell applications

Seasonal storage of hydrogen in stationary systems with liquid organic hydrides

Kinetics and fixed‐bed reactor modeling of butane oxidation to maleic anhydride

Catalyst Deactivation Due to Pore-Plugging by Reaction Products

Economic analysis of the seasonal storage of electricity with liquid organic hydrides

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