Continuous Dehydrogenation of Aqueous Formic Acid under Sub-Critical Conditions by Use of Hollow Tubular Reactor Coated with Thin Palladium Oxide Layer
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概要
- 論文の詳細を見る
We have fabricated the catalytic tubular reactor whose inner wall is coated with thin palladium oxide (PdO) layer (ca. 3 µm). Continuous decomposition of aqueous formic acid (HCO2H) was examined by the flow reaction system installed with the catalytic tubular reactor. Reactor with PdO inner surface showed superior catalytic performance than that obtained by the reactor having metallic Pd surface. Higher temperature and longer residence time increased the reaction conversion but the effect of pressure was small. Steady generation of hydrogen (H2) was achieved keeping >99% conversion of formic acid at 300°C (10 MPa) within 4.3 s residence time. H2 and carbon dioxide (CO2) were major products with ca. 1 : 1 molar ratio and the generation of carbon monoxide (CO) was minor. Generation of CO was considerably suppressed by increase of sodium formate ratio i.e., formate/(formate+formic acid) ratio. Long term test revealed that steady productivity of H2 was maintained more than 600 h reaction. The XPS spectrum of catalytic surface after long time use evidenced the presence of PdO in large excess along with small amount of metallic Pd indicating that reduction of PdO surface proceeded quite slowly.
- The Society of Chemical Engineers, Japanの論文
著者
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Ookawara Ryuto
Research Center for Compact Chemical System, National Institute of Advanced Industrial Science and T
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NISHIOKA Masateru
Research Center for Compact Chemical Process
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Kawasaki Shin-ichiro
Research Center For Compact Chemical Process
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Suzuki Toshishige
Research Center For Compact Chemical Process National Institute Of Advanced Industrial Science And T
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Sato Koichi
Research Center For Compact Chemical Process
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Suzuki Akira
Research And Development Group Engineering Div.
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Nishioka Masateru
Research Center for Compact Chemical System, National Institute of Advanced Industrial Science and Technology, AIST
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Javaid Rahat
Research Center for Compact Chemical System, National Institute of Advanced Industrial Science and Technology, AIST
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Kawasaki Shin-ichiro
Research Center for Compact Chemical System, National Institute of Advanced Industrial Science and Technology, AIST
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