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Hydrogen production by electrochemical reforming of ethanol

Murashkina, A. A. / Medvedev, D. A. / Sergeeva, V. S. / Demin, A. K.

Abstract The theoretical analysis of processes occurring in the solid oxide electrochemical reformer based on the oxide conductor with mixed ion-electron conductivity has been carried out. Three versions of the preliminary conversion of the initial fuel (ethanol), namely, partial oxidation, steam reforming, and recycling by the anode effluent gas mixture have been considered. The last version is shown to feature the highest fuel conversion efficiency and hydrogen yield.

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Hydrogen production by electrochemical reforming of ethanol

Murashkina, A. A. / Medvedev, D. A. / Sergeeva, V. S. / Demin, A. K.

Abstract The theoretical analysis of processes occurring in the solid oxide electrochemical reformer based on the oxide conductor with mixed ion-electron conductivity has been carried out. Three versions of the preliminary conversion of the initial fuel (ethanol), namely, partial oxidation, steam reforming, and recycling by the anode effluent gas mixture have been considered. The last version is shown to feature the highest fuel conversion efficiency and hydrogen yield.

Hydrogen production by electrochemical reforming of ethanol

Murashkina, A. A. / Medvedev, D. A. / Sergeeva, V. S. / Demin, A. K.

Abstract The theoretical analysis of processes occurring in the solid oxide electrochemical reformer based on the oxide conductor with mixed ion-electron conductivity has been carried out. Three versions of the preliminary conversion of the initial fuel (ethanol), namely, partial oxidation, steam reforming, and recycling by the anode effluent gas mixture have been considered. The last version is shown to feature the highest fuel conversion efficiency and hydrogen yield.

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Order at Subito €

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Title:

Hydrogen production by electrochemical reforming of ethanol

Contributors:

Murashkina, A. A. (author) / Medvedev, D. A. (author) / Sergeeva, V. S. (author) / Demin, A. K. (author)

Published in:

Petroleum Chemistry ; 53 ; 489-493

Publication date:

2013-11-13

Size:

5 pages

ISSN:

1555-6239 , 0965-5441

DOI:

https://doi.org/10.1134/S0965544113070128

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

reforming , synthesis gas , hydrogen , membranes Chemistry , Industrial Chemistry/Chemical Engineering

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