Dynamic modeling of a three-stage low-temperature ethanol reformer for fuel cell application

García Barroso, María Victoria; Lopez, Eduardo; Serra, María; Llorca, Jordi

Artículos de revistas

Fecha

2009-07

Registro en:

García Barroso, María Victoria; Lopez, Eduardo; Serra, María; Llorca, Jordi; Dynamic modeling of a three-stage low-temperature ethanol reformer for fuel cell application; Elsevier Science; Journal of Power Sources; 192; 1; 7-2009; 208-215

0378-7753

http://hdl.handle.net/11336/41681

CONICET Digital

CONICET

http://repositorioslatinoamericanos.uchile.cl/handle/2250/1894140

Autor

García Barroso, María Victoria

Lopez, Eduardo

Serra, María

Llorca, Jordi

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

A low-temperature ethanol reformer based on a cobalt catalyst for the production of hydrogen has been designed aiming the feed of a fuel cell for an autonomous low-scale power production unit. The reformer comprises three stages: ethanol dehydrogenation to acetaldehyde and hydrogen over SnO2 followed by acetaldehyde steam reforming over Co(Fe)/ZnO catalyst and water gas shift reaction. Kinetic data have been obtained under different experimental conditions and a dynamic model has been developed for a tubular reformer loaded with catalytic monoliths for the production of the hydrogen required to feed a 1 kWPEMFC.

Materias

Hydrogen production

Ethanol steam reforming

Low-temperature reforming

Dynamic simulation

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