Hydrogen production from an ethanol reformer with energy saving approaches over various catalysts

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• 作者：Wei-Cheng Chiu ; Rong-Fang Horng ; ^{hong.rf@msa.hinet.net} ; ^{hrf733@mail.ksu.edu.tw} ; Huann-Ming Chou
• 关键词：Ethanol ; Reformer ; Catalyst ; Hydrogen production ; Energy-saving approaches
• 刊名：International Journal of Hydrogen Energy
• 出版年：2013
• 出版时间：27 February, 2013
• 年：2013
• 卷：38
• 期：6
• 页码：2760-2769
• 全文大小：711 K

文摘

The reforming of ethanol for hydrogen production was carried out in this study. The effects of ethanol supply rate, catalysts, O₂/EtOH and different energy-saving approaches on the reforming temperature, H₂?+?CO (syngas) concentration and thermal efficiency were investigated. The results showed that the best H₂?+?CO concentration of 43.41 % could be achieved by using rhodium (Rh), while the next best concentration of about 42.08 % could be obtained using ruthenium (Ru). The results also showed that the conversion efficiency of ethanol, concentrations of H₂ and CO, and the energy loss ratio could be improved by heat insulation and heat recycling; and the improvement in the reforming performance was greater by the Ru catalyst rather than by the Rh catalyst with the energy-saving approaches. The greatest improvement in hydrogen production was achieved when using the Ru catalyst with the addition of steam and heat recycling system under an O₂/EtOH ratio of 0.625 and S/C ratio of 1.0.