CO Removal from Reformed Gas by Catalytic Methanation for Polymer Electrolyte Fuel Cell Applications

Mitsuaki Echigo; Takeshi Tabata

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CO Removal from Reformed Gas by Catalytic Methanation for Polymer Electrolyte Fuel Cell Applications

机译：催化甲烷化从重整气中脱除二氧化碳，用于聚合物电解质燃料电池

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References(14) Cited-By(15) CO removal from a reformed gas by catalytic methanation on Ru/Al2O3 was studied for Polymer Electrolyte Fuel Cell (PEFC) systems. The effects of the gas composition and the reaction temperature on CO methanation activity were examined. The ratio of methanation of CO to that of CO + CO2 was also investigated. Consequently, it was found that CO could be removed from a reformed gas to below 10 ppm by controlling CO2 methanation by multi-stage CO methanation, while CO could not be reduced to below 10 ppm by single-stage CO methanation due to the presence of CO2.

机译：参考文献（14）在Ru / Al2O3上通过催化甲烷化从重整气体中去除Cy-By（15）CO进行了聚合物电解质燃料电池（PEFC）系统的研究。研究了气体组成和反应温度对CO甲烷化活性的影响。还研究了CO的甲烷化率与CO + CO2的甲烷化率。因此，发现通过通过多级CO甲烷化控制CO 2甲烷化，可以将重整气体中的CO去除至10ppm以下，而由于存在CO，不能通过单级CO甲烷化将CO还原至10ppm以下。二氧化碳

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《Journal of Chemical Engineering of Japan》 |2004年第1期|共页
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Mitsuaki Echigo; Takeshi Tabata;
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1. Effect of Metal Addition to Ru/Al2O3 Catalyst on CO Methanation Removal from Reformed Gas for Polymer Electrolyte Fuel Cell Applications [J] . Mitsuaki Echigo, Takenori Hirano Journal of Chemical Engineering of Japan . 2021,第10期

机译：Ru / Al2O3催化剂对Ru / Al2O3催化剂的效果在高分子电解质燃料电池应用中的重整气体中的Co甲烷化中的含量
2. CO Removal from Rformed Gas by Catalytic methanation for Polymer electrolyte fuel Cell Applications [J] . Mitsuaki Echigo, Takeshi Tabata Journal of Chemical Engineering of Japan . 2004,第1期

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CO Removal from Reformed Gas by Catalytic Methanation for Polymer Electrolyte Fuel Cell Applications

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