Journal
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 37, Issue 24, Pages 18773-18781Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2012.09.126
Keywords
Glycerol reforming; Direct synthesis; Mesoporous metal oxide; Nickel catalyst
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Funding
- Korea Research Foundation [KRF 2011-043-02039]
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Nickel nanoclusters embedded in multicomponent mesoporous metal oxides (Ni-MMOs) are obtained at various support compositions by a single-step synthesis of Ni ion incorporated mesoporous metal oxides (NiO-MMOs) followed by selective reduction of the NiO to Ni metal clusters. The resultant Ni-MMOs catalysts displayed enhanced Ni dispersion with well-developed mesopore structures at various support composition, exhibiting superior catalytic properties when compared to a siliceous SBA-16-supported Ni catalyst prepared by a conventional impregnation method. Glycerol steam reforming conducted at 873 K on 1Ni-2Al(2)O(2)-2ZrO(2) and 1Ni-2SiO(2)-2ZrO(2) catalysts exhibited considerably higher glycerol conversions over the 10 wt%-Ni/SBA-16 catalyst with similar Ni loading amount. This was primarily due to the enhanced Ni dispersion resulting from the direct synthesis process. The multicomponent mesoporous supports also significantly affect product selectivity, favoring higher hydrogen concentration in the product stream. The water gas shift reaction appears to be positively affected by the 2Al(2)O(2)-2ZrO(2) and 2SiO(2)-2ZrO(2) multicomponent metal oxide matrices, which facilitated the conversion of the CO produced by the glycerol reforming further to additional hydrogen. Direct single-step synthesis of Ni-MMO catalysts was effective in enhancing the dispersion of Ni nanoclusters, as well as variation of the support components of the mesoporous catalyst systems. Copyright (C) 2012, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.
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