NOVEL NANO-SCALE Au/α-Fe_2O_3 CATALYST FOR THE PREFERENTIAL OXIDATION OF CO IN BIOFUEL REFORMATE GAS

机译：新型纳米级Au /α-Fe_2O_3催化剂，用于生物燃料改性气体中的CO氧化

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Au/α-Fe_2O_3 catalyst was synthesized using a modified co-precipitation method to generate an inverse catalyst model. The effects of introducing CO_2 and H_2O during preferential oxidation (PROX) of CO were investigated. The goal of this work was ≥99.8% CO conversion at 80°C. There was an increase in the conversion at all temperatures with the introduction of CO_2 and 100% of the CO was converted at the target temperature of 80°C for any amount of CO_2. Furthermore, there was an increase in conversion to 100% for water fractions ranging from 3% to 10%. Finally, for realistic conditions of (bio-)fuel reforming, 24% CO_2 and 10% water, 99.85% conversion was achieved. A long-term test of 200 hours showed no significant deactivation of the catalyst at a temperature of 80°C in presence of 24% CO_2 and 3% water. The mechanism for PROX is not known definitively, however, current literature believes the gold particle size is the key. In contrast, we emphasize the tremendous role of the support particle size.

机译：使用改性的共沉淀法合成Au /α-Fe_2O_3催化剂以产生逆催化剂模型。研究了在CO的优先氧化（PROX）期间引入CO_2和H_2O的效果。这项工作的目标≥99.8％CO转换在80°C。在所有温度下，在引入CO_2的所有温度下，在任何量的CO_2的目标温度下将100％转化为100％的CO。此外，随着3％至10％的水分，转化为100％的转化率增加。最后，对于（生物）燃料重整的实际条件，24％CO_2和10％水，实现了99.85％的转化。长期试验200小时显示在80℃的温度下在24％CO_2和3％水中的温度下没有显着去活化。 Prox的机制毫无明确，然而，当前文献认为金粒径是关键。相比之下，我们强调支持粒径的巨大作用。

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《ASME International Conference on Energy Sustainability》|2014年||共8页
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Titilayo Shodiya; Wen Peng; Nico Hotz;
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1. Novel nano-scale Au/α-Fe_2O_3 catalyst for the preferential oxidation of CO in biofuel reformate gas [J] . Shodiya T., Schmidt O., Peng W., Journal of Catalysis . 2013,第Null期

机译：新型纳米级Au /α-Fe_2O_3催化剂，用于生物燃料重整气中CO的优先氧化
2. Preferential oxidation of carbon monoxide over Pt, Au monometallic catalyst, and Pt-Au bimetallic catalyst supported on ceria in hydrogen-rich reformate [J] . Monyanon S, Pongstabodee S, Luengnaruemitchai A Journal of the Chinese Institute of Chemical Engineers . 2007,第5a6期

机译：富氢重整产品中二氧化铈负载的Pt，Au单金属催化剂和Pt-Au双金属催化剂对一氧化碳的优先氧化
3. Performance of Pt-Fe/mordenite monolithic catalysts for preferential oxidation of carbon monoxide in a reformate gas for PEFCs [J] . Nobutaka Maeda, Takaaki Matsushima, Hiroyuki Uchida Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2008,第1a2期

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4. NOVEL NANO-SCALE Au/α-Fe_2O_3 CATALYST FOR THE PREFERENTIAL OXIDATION OF CO IN BIOFUEL REFORMATE GAS [C] . Titilayo Shodiya, Wen Peng, Nico Hotz ASME international conference on energy sustainability . 2014

机译：新型纳米级Au /α-Fe_2O_3催化剂用于生物燃料重整气中CO的优先氧化
5. Fuel processing for fuel cells: Preferential oxidation (PROX) of carbon monoxide from practical reformates for PEM hydrogen-oxygen fuel cells using high contacting efficiency microfibrous entrapped catalysts. [D] . Chang, Bong-Kyu. 2004

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6. Au/CeO2-ZnO/Al2O3 as Versatile Catalysts for Oxidation Reactions: Application in Gas/Liquid Environmental Processes [O] . Cristina Megías-Sayago, Tomas Ramirez Reina, Svetlana Ivanova, 1970

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7. Surface species and gas phase products in the preferential oxidation of CO on TiO2-supported Au-Rh bimetallic catalysts [O] . Raskó János, Kiss János 2007

机译：TiO2负载Au-Rh双金属催化剂上CO优先氧化中的表面物种和气相产物

NOVEL NANO-SCALE Au/α-Fe_2O_3 CATALYST FOR THE PREFERENTIAL OXIDATION OF CO IN BIOFUEL REFORMATE GAS

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