Steam Reforming of Glycerol over Ni Supported Alumina Xerogel for Hydrogen Production
Autor: | Ahmed Bshish, Wan Ramli Wan Daud, Binitha N. Narayanan, Zahira Yaakob, Ali Ebshish |
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Jazyk: | angličtina |
Předmět: |
Glycerol
Materials science Waste management Hydrogen Sol gel Method chemistry.chemical_element Hydrogen Production Catalytic System Transesterification Catalysis Steam reforming chemistry.chemical_compound Energy(all) chemistry Chemical engineering Reforming Process Thermal stability BET theory Hydrogen production |
Zdroj: | Energy Procedia. :552-559 |
ISSN: | 1876-6102 |
DOI: | 10.1016/j.egypro.2012.05.067 |
Popis: | Momentous amount of glycerol is produced as a by-product during bio-diesel production by the transesterification of vegetable oils, which are available at low cost in large supply from renewable raw materials. As hydrogen is a clean energy carrier, conversion of glycerol to hydrogen is one among the most attractive ways to make use of glycerol. In this study, the catalytic production of hydrogen by steam reforming of glycerol has been experimentally performed in a fixed-bed reactor. The performance of this process was evaluated over 10wt% Ni supported alumina xerogel catalysts. Ni is impregnated over alumina xerogel which was pretreated at different temperatures of 700°C, 800°C, 900°C and 1000°C. For a comparative purpose, the steam reforming experiments were conducted under same operating conditions, i.e., reaction temperature of 600°C, atmospheric pressure and 1:6 glycerol to water molar ratio where we are getting 100% glycerol conversion in all the runs. The results showed that the hydrogen production increased with the increase in the treatment temperature of the support. The highest amount of hydrogen produced was attained over 10wt% Ni doped alumina xerogel pretreated at 1000°C. The catalytic enhancement over the best catalyst system is due to the thermal stability of the support which is treated at highest temperature. Sol gel method of preparation is implemented in the support development and different catalyst systems used in the reforming process were characterized using X-ray powder diffraction, BET surface area and SEM analysis. |
Databáze: | OpenAIRE |
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