Abstract: Dimethyl ether (DME) and water–ethanol mixtures are promising and attractive sources of hydrogen for fuel cell applications. Copper-cerium oxide systems have been studied as the catalysts for DME steam reforming (SR) to hydrogen-rich gas mixtures. Hydrogen and carbon dioxide were the main reaction products; CO content was insignificant. For CO removal to 10 ppm, the level tolerated by low-temperature fuel cells in the hydrogen-rich feed gas—the reaction of preferential CO methanation in the presence of CO2 has been used. Nickel-cerium oxide system was used as the catalyst. SR of water–ethanol mixtures was performed using supported Rh catalyst. Reaction products of ethanol SR at 400 °C contained H2, CH4 and CO2. As the temperature increased to 600–700 °C, the CH4 concentration decreased considerably. The obtained hydrogen-rich gas mixture can be used as a feed for high-temperature solid-oxide fuel cells.

Cite: Badmaev S.D. , Snytnikov P.V.
Hydrogen Production from Dimethyl Ether and Bioethanol for Fuel Cell Applications
International Journal of Hydrogen Energy. 2008. V.33. N12. P.3026-3030. DOI: 10.1016/j.ijhydene.2008.02.016 WOS Scopus РИНЦ ANCAN OpenAlex

Dates:

Submitted:	Aug 23, 2007
Accepted:	Feb 7, 2008
Published online:	Apr 18, 2008
Published print:	Jun 1, 2008

Identifiers:

Web of science:	WOS:000257532500025
Scopus:	2-s2.0-44749089471
Elibrary:	13591094
Chemical Abstracts:	2008:720441
Chemical Abstracts (print):	151:37374
OpenAlex:	W2040215069

Citing:

DB	Citing
Web of science	39
Scopus	46
Elibrary	47
OpenAlex	44

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