High surface area carbons as acidic components with Cu-ZnO/Al2O3 for the reforming of dimethoxymethane

Hao Shen; Yuchuan Fu; Qing Sun

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High surface area carbons as acidic components with Cu-ZnO/Al2O3 for the reforming of dimethoxymethane

机译：高表面积碳与Cu-ZnO / Al2O3一起作为酸性成分用于二甲氧基甲烷的重整

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Acidic carbon nano-fiber (H-CNF) with high surface area (H-HSCNF) was prepared via the activation of CNF by KOH and then HNO3, which was highly active for the hydrolysis of DMM. Activation of phenolic resin (PR) with KOH and then HNO3 produced acidic carbon (H-HSPRC) that was even more active for the hydrolysis of DMM. The complex catalysts combining Cu-ZnO/γ-Al2O3 and H-HSPRC exhibited excellent performance for the reforming of DMM to produce H2 with a rate of H2 production as high as 7400 ml g_(cat)~(-1) h~(-1) at 513 K.

机译：先用KOH活化CNF，然后再用HNO3活化具有高表面积的酸性碳纳米纤维（H-HSCNF），HNO3对DMM的水解具有很高的活性。用KOH活化酚醛树脂（PR），然后用HNO3活化，产生的酸性碳（H-HSPRC）对DMM的水解活性更高。结合了Cu-ZnO /γ-Al2O3和H-HSPRC的复合催化剂在重整DMM以产生H2方面表现出优异的性能，H2的生成速率高达7400 ml g_（cat）〜（-1）h〜（- 1）在513K。

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《Catalysis Communications》 |2008年第5期|共6页
作者
Hao Shen; Yuchuan Fu; Qing Sun;
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正文语种 eng
中图分类化学工业;
关键词
Dimethoxymethane; Steam reforming; Hydrogen production; Acidic carbon; Copper catalyst;

机译：二甲氧基甲烷;蒸汽重整;制氢;酸性碳;铜催化剂;

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1. High surface area carbons as acidic components with Cu-ZnO/Al2O3 for the reforming of dimethoxymethane [J] . Hao Shen, Yuchuan Fu, Qing Sun Catalysis Communications . 2008,第5期

机译：高表面积碳与Cu-ZnO / Al2O3一起作为酸性成分用于二甲氧基甲烷的重整
2. Surface acidity of niobium phosphate and steam reforming of dimethoxymethane over CuZnO/Al_2O_3-NbP complex catalysts [J] . Qing Sun, Aline Auroux, Jianyi Shen Journal of Catalysis . 2006,第1期

机译：磷酸铌的表面酸性和CuZnO / Al_2O_3-NbP复合催化剂上二甲氧基甲烷的水蒸气重整
3. Pruning of the surface species on Ni/Al2O3 catalyst to selective production of hydrogen via acetone and acetic acid steam reforming [J] . Xun Hu, Lijun Zhang, Gongxuan Lu Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2012,第Null期

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4. Cu－ZnO／Al2O3触媒を用いた改質ガスにおける水性ガスシフト反応の速度論的解析 [C] . 堀江泰弘, 藤田亮, 桶本篤史石油・石油化学討論会 . 2016

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5. Novel routes to ethylene glycol synthesis via acid-catalyzed carbonylation of formaldehyde and dimethoxymethane. [D] . Celik, Fuat Emin. 2010

机译：通过酸催化甲醛和二甲氧基甲烷羰基化合成乙二醇的新途径。
6. Investigation of the Process Conditions for Hydrogen Production by Steam Reforming of Glycerol over Ni/Al2O3 Catalyst Using Response Surface Methodology (RSM) [O] . Ali Ebshish, Zahira Yaakob, Yun Hin Taufiq-Yap, 2014

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7. Investigating the correlation between deactivation and the carbon deposited on the surface of Ni/Al2O3 and Ni/La2O3-Al2O3 catalysts during the biogas reforming reaction [O] . N.D. Charisiou, L. Tzounis, V. Sebastian, 2019

机译：在沼气重整反应期间研究了去激活与沉积在Ni / Al2O3和Ni / La2O3-Al2O3催化剂表面的碳之间的相关性
8. Effect of Morphology on Catalytic Activity: Hydrocarbon Reforming Reactions on Platinum Crystal Surfaces. [R] . Somorjai, G. A., Petersen, E. E. 1976

机译：形貌对催化活性的影响：铂类晶体表面的烃重整反应。

High surface area carbons as acidic components with Cu-ZnO/Al2O3 for the reforming of dimethoxymethane

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