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Ni/CeO2-thin ceramic layer depositions on ceramic monoliths for syngas production by Oxy Steam Reforming of biogas

descriptionPublicationkeyboard_double_arrow_right Article , Journal 01 Aug 2016 Italy Publisher:Elsevier BVJournal:Fuel Processing Technology, volume 149, pages 40-48 (issn: 0378-3820,

Authors: Balzarotti R; Italiano C; Pino L; Cristiani C; Vita A;

doi: 10.1016/j.fuproc.2016.04.002

handle: 20.500.14243/325628 , 11311/1024644

Ni/CeO2-thin ceramic layer depositions on ceramic monoliths for syngas production by Oxy Steam Reforming of biogas

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Abstract

Ni-CeO2 catalysts (metals load equal to 7.5 wt.%) as thin oxide layers on ceramic monoliths have been obtained by support dip-coating into acid-free stable catalyst dispersion. Ni-based catalysts were prepared by precipitation-dry-impregnation method or solution combustion synthesis and characterized by XRD, BET, CO-Chemisorption, TPR, TEM and SEM-EDX techniques. Coating load (15-20 wt.%) was controlled by multiple depositions on the basis of the slurry rheological behavior. Procedure goodness was evaluated in terms of coating load and adhesion performance. Homogeneous and well adherent layers of ca. 10-20 ?m were found. The performance of final structured systems was evaluated towards biogas oxy-steam reforming (OSR) reaction, highlighting the influence of morphological and structural properties of synthesized Ni-based powders on the catalytic activity. Catalytic tests demonstrated superior performances of solution combustion synthesized Ni/CeO2 catalyst washcoated on monolith, especially at high space velocity.

Country

Italy

Related Organizations

National Research Council
Italy
Polytechnic University of Milan
Italy
Institute for Advanced Energy Technologies
Italy

Keywords

Monoliths, Washcoating, Oxy-steam reforming, Biogas, Monoliths, Washcoating, Catalyst depositio,n Nickel-ceria, Oxy-steam reforming, Biogas, Nickel-ceria, Catalyst deposition

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