Ruthenium Dispersion: A Key Parameter for the Stability of Supported Ruthenium Catalysts during Catalytic Supercritical Water Gasification

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Ruthenium Dispersion: A Key Parameter for the Stability of Supported Ruthenium Catalysts during Catalytic Supercritical Water Gasification

机译：钌分散：催化超临界水气化期间负载钌催化剂稳定性的关键参数

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The catalytic supercritical water gasification of isopropanol (450 degrees C, 30 MPa) over Ru catalysts supported on carbon and metal oxides was performed in a fixed-bed plug flow reactor. The Ru loading was between 1.2 and 2%. The catalyst stability over a period of 50h was in the order: Ru/C > Ru/ZrO2 > Ru/Al2O3. Ru/TiO2. Considerable coke deposits were found on Ru/Al2O3 and Ru/TiO2, which suggests that coke formation was responsible for the loss of activity, whereas the coke content was much lower on Ru/C and Ru/ZrO2, which confirms their better coking resistance. Clearly, Ru/C was the most stable catalyst as a loss of only 3% of its initial activity was measured. The high Ru dispersion of Ru/C and Ru/ZrO2 was beneficial for the improvement of the catalyst stability because of the higher gasification rate versus the coke formation rate.

机译：在固定床塞流体反应器中进行碳金属丙醇（450℃，30MPa）的异丙醇（450℃，30MPa）的催化超临界水分。 Ru载荷在1.2和2％之间。在50h的催化剂稳定性有序：Ru / C> Ru / ZrO2> Ru / Al 2 O 3。 Ru / TiO2。在Ru / Al2O3和Ru / TiO2上发现了相当大的焦炭沉积物，这表明焦炭形成负责活性丧失，而焦炭含量在Ru / C和Ru / ZrO 2上较低，这证实了它们更好的焦化性。显然，Ru / C是最稳定的催化剂，因为测量了其初始活性的仅3％的损失。 Ru / C和Ru / ZrO2的高Ru分散体有利于改善催化剂稳定性，因为较高的气化速率与焦炭形成速率相比。

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《ChemCatChem》 |2016年第1期|共3页
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
alcohols; carbon; ruthenium; supercritical fluids; supported catalysts;

机译：醇;碳;钌;超临界流体;支持的催化剂;

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专利

1. Ruthenium Dispersion: A Key Parameter for the Stability of Supported Ruthenium Catalysts during Catalytic Supercritical Water Gasification [J] . ChemCatChem . 2016,第1期

机译：钌分散：催化超临界水气化期间负载钌催化剂稳定性的关键参数
2. Gasification of Sugarcane Bagasse over Supported Ruthenium Catalysts in Supercritical Water [J] . Mitsumasa Osada, Aritomo Yamaguchi, Norihito Hiyoshi, Energy & fuels . 2012,第MayaJuna期

机译：超临界水中负载型钌催化剂上甘蔗渣的气化
3. EXAFS Study on Structural Change of Charcoal-supported Ruthenium Catalysts during Lignin Gasification in Supercritical Water [J] . Aritomo Yamaguchi, Norihito Hiyoshi, Osamu Sato Catalysis Letters . 2008,第1a2期

机译：EXAFS研究超临界水中木质素气化过程中木炭负载的钌催化剂的结构变化
4. Gasification of Sugarcane Bagasse over Supported Ruthenium Catalysts in Supercritical Water [C] . Mitsumasa Osada, Aritomo Yamaguchi, Norihito Hiyoshi International Conference Petroleum Phase Behavior and Fouling . 2012

机译：在超临界水中支持的钌催化剂的甘蔗囊甘蔗气化
5. CATALYTIC REACTIONS OF CARBON MONOXIDE (CO) OVER SILICA-SUPPORTED IRIDIUM AND IRIDIUM-RUTHENIUM BIMETALLIC CATALYST [D] . SAYMEH, RIYADH AKRAM 1986

机译：二氧化硅负载的铱和铱-钌双金属催化剂上一氧化碳（CO）的催化反应
6. Mechanism of Catalytic Water Oxidation by the Ruthenium Blue Dimer Catalyst: Comparative Study in D2O versus H2O [O] . Dooshaye Moonshiram, Vatsal Purohit, Javier J. Concepcion, 2013

机译：钌蓝二聚体催化剂催化水氧化的机理：D2O与H2O的比较研究
7. Supported Iridium-Ruthenium Mixed Oxide Catalysts for Oxygen Evolution: Synthesis of Mixed Oxides by the Microwave Polyol Method. Composition Dependency of the Catalytic Activities of Mixed Oxides for the OER in PEM Water Electrolysis [O] . Fanavoll Espen Vinge 2013

机译：负载型铱-钌混合氧化物催化剂，用于析氧：微波多元醇法合成混合氧化物。 PEM水电解中混合氧化物对OER催化活性的组成依赖性
8. Structure sensitive adsorption of hydrogen on ruthenium and ruthenium-silver catalysts supported on silica [R] . Kumar, N. 1999

机译：结构敏感吸附氢在钌和负载在二氧化硅上的钌 - 银催化剂上

Ruthenium Dispersion: A Key Parameter for the Stability of Supported Ruthenium Catalysts during Catalytic Supercritical Water Gasification

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