Study on the Carbon-Methanation and Catalytic Activity of Ru/AC for Ammonia Synthesis

ZHU Yifeng; LI Xiaonian; JI Dechun; LIU Huazhang

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Study on the Carbon-Methanation and Catalytic Activity of Ru/AC for Ammonia Synthesis

机译：Ru / AC的碳甲烷化和催化合成氨的活性研究

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摘要

The effects of promoters K, Ba, Sm on the resistance to carbon-methanation and catalytic activity of ruthenium supported on active carbon (Ru/AC) for ammonia synthesis have been studied by means of TG-DTG (thermalgravity-differential thermalgravity), temperature-programmed desorption, and activity test. Promoters Ba, K, and Sm increased the activity of Ru/AC catalysts for ammonia synthesis significantly. Much higher activity can be reached for Ru/AC catalyst with bi- or tri-promoters. Indeed, the triply promoted catalyst showed the highest activity, coupled to a surprisingly high resistance to' methanation. The ability of resistance of promoter to methanation of Ru/AC catalyst is dependent on the adsorption intensity of hydrogen. The strong adsorption of hydrogen would enhance methanation and impact the adsorption of nitrogen, which results in the decrease of catalytic activity.

机译：通过TG-DTG（热重-差热重）技术研究了助催化剂K，Ba，Sm对活性炭负载的钌（Ru / AC）合成氨的抗碳甲烷化性和催化活性的影响。 -编程的脱附和活性测试。促进剂Ba，K和Sm显着提高了Ru / AC催化剂用于氨合成的活性。具有双或三助催化剂的Ru / AC催化剂可以达到更高的活性。实际上，三重促进的催化剂显示出最高的活性，并具有出乎意料的高抗甲烷化性。助催化剂对Ru / AC催化剂甲烷化的能力取决于氢的吸附强度。氢的强吸附将增强甲烷化并影响氮的吸附，从而导致催化活性降低。

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来源
《Chinese Journal of Chemical Engineering》 |2004年第3期|p.384-387|共4页
作者
ZHU Yifeng; LI Xiaonian; JI Dechun; LIU Huazhang;
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作者单位

Zhejiang Key Laboratory of Green-Chemistry Synthesis Technology, Institute of Catalysis, Zhejiang University of Technology, Hangzhou 310032, China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
ruthenium; catalyst; methanation; ammonia synthesis;

机译：钌;催化剂;甲烷化;氨合成;

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专利

1. Study on the Carbon-Methanation and Catalytic Activity of Ru／AC for Ammonia Synthesis [J] . 祝一锋, 李小年, 季德春, 中国化学工程学报：英文版 . 2004,第003期

机译：Ru / AC的碳甲烷化和催化合成氨的活性研究
2. Higher Activity of Ni/γ-Al 2 O 3 over Fe/γ-Al 2 O 3 and Ru/γ-Al 2 O 3 for Catalytic Ammonia Synthesis in Nonthermal Atmospheric-Pressure Plasma of N 2 and H 2 [J] . Masakazu Iwamoto, Masataka Horikoshi, Ryu Hashimoto, Catalysts . 2020,第5期

机译：在N 2和H 2的非热大气压血浆中，Ni /γ-Al 2 O 3和Ru /γ-Al 2 O 3的Ni /γ-Al 2 O 3和Ru /γ-Al 2 O 3的较高活性
3. Effect of Calcination and Reduction Temperatures on the Catalytic Activity of Ru/La0.5Ce0.5O1.75 for Ammonia Synthesis under Mild Conditions [J] . Energy Technology: Generation,Conversion,Storage,Distribution . 2020,第6期

机译：煅烧和减少温度对温氏病症氨合成催化活性的影响
4. Hydrogen Spillover Effect in the Reduction of Barium Nitrate of Ru-Ba(NO_3)_2/AC Catalysts for Ammonia Synthesis [C] . Changhai Liang, Zhaobin Wei, Mengfei Luo, International Conference on Spillover . 2001

机译：氢气溢出效应在Ru-Ba（NO_3）α2/ AC催化剂的氨硝酸钡中的减少
5. Characterization and catalytic activity for ammonia synthesis of ruthenium ion-exchanged zeolites. [D] . Cisneros, Mark David. 1990

机译：钌离子交换沸石氨合成的表征和催化活性。
6. Ru-N-C Hybrid Nanocomposite for Ammonia Dehydrogenation: Influence of N-doping on Catalytic Activity [O] . Nguyen Thi Bich Hien, Hyo Young Kim, Mina Jeon, 2015

机译：用于氨气脱氢的Ru-N-C杂化纳米复合材料：N掺杂对催化活性的影响
7. Effect of MgO/h-BN Composite Support on Catalytic Activity of Ba-Ru/MgO/h-BN for Ammonia Synthesis [O] . Xiaolong YANG, Liping TANG, Chungu XIA, 2012

机译：MgO / H-BN复合载体对氨合成Ba-Ru / MgO / H-Bn催化活性的影响
8. Synthesis and reactivity of Ru complexes with dibenzothiophene and hexahydrodibenzothiophene ligands: Models for catalytic hydrodesulfurization. [R] . Wang, C. M. J. 1990

机译：Ru配合物与二苯并噻吩和六氢二苯并噻吩配体的合成和反应性：催化加氢脱硫的模型。

Study on the Carbon-Methanation and Catalytic Activity of Ru/AC for Ammonia Synthesis

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