等离子体催化正-C5H12 在 FeMn/Al2O3 催化剂上的部分氧化过程中 Mn/Fe 比率对氧代物分布的影响

IF 2.6 3区 物理与天体物理 Q3 ENGINEERING, CHEMICAL
Xuming Zhang, Weiqiang Shen, Zijun He, Ying Liu, Dandan Wang, Hua Pan, Yuzhen Jin, Zuchao Zhu, Liancheng Zhang, Kai Li
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引用次数: 0

摘要

要实现更清洁的燃烧,就必须从液体燃料的部分氧化过程中产生含氧化合物。为了通过 FeMn/Al2O3 催化剂上的等离子体催化 n-C5H12 部分氧化提高含氧化合物的生成,研究了锰/铁比率的影响。含氧化合物的选择性随 Mn/Fe 比率的变化呈现出火山状,Mn/Fe 比率为 7/3 时的含氧化合物选择性最高,达到 69%。含氧化合物的选择性受催化剂的酸性和活性氧两种物质的影响,可通过锰/铁比进行调节。氧代物选择性、催化剂的酸度和活性氧之间存在密切关系。活性氧含量越高、酸度越低,氧的选择性就越高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Effect of Mn/Fe Ratio on the Oxygenates Distribution from Partial Oxidation of n-C5H12 by Plasma Catalysis Over FeMn/Al2O3 Catalyst

The Effect of Mn/Fe Ratio on the Oxygenates Distribution from Partial Oxidation of n-C5H12 by Plasma Catalysis Over FeMn/Al2O3 Catalyst

Oxygenates production from the partial oxidation of liquid fuel is required for a cleaner combustion. The effect of Mn/Fe ratio was investigated to improve the oxygenates formation via plasma catalytic n-C5H12 partial oxidation over FeMn/Al2O3 catalyst. The oxygenates selectivities exhibited a volcano shape with the Mn/Fe ratio and the highest value of 69% was obtained at Mn/Fe ratio of 7/3. The oxygenates selectivities were dominated by both the acidity and active oxygen species of catalyst, which could be tuned by Mn/Fe ratio. A close relationship between oxygenates selectivities, acidity, and active oxygen species of catalyst was established. The higher the active oxygen species content and the lower the acidity, the higher the oxygenates selectivities.

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来源期刊
Plasma Chemistry and Plasma Processing
Plasma Chemistry and Plasma Processing 工程技术-工程:化工
CiteScore
5.90
自引率
8.30%
发文量
73
审稿时长
6-12 weeks
期刊介绍: Publishing original papers on fundamental and applied research in plasma chemistry and plasma processing, the scope of this journal includes processing plasmas ranging from non-thermal plasmas to thermal plasmas, and fundamental plasma studies as well as studies of specific plasma applications. Such applications include but are not limited to plasma catalysis, environmental processing including treatment of liquids and gases, biological applications of plasmas including plasma medicine and agriculture, surface modification and deposition, powder and nanostructure synthesis, energy applications including plasma combustion and reforming, resource recovery, coupling of plasmas and electrochemistry, and plasma etching. Studies of chemical kinetics in plasmas, and the interactions of plasmas with surfaces are also solicited. It is essential that submissions include substantial consideration of the role of the plasma, for example, the relevant plasma chemistry, plasma physics or plasma–surface interactions; manuscripts that consider solely the properties of materials or substances processed using a plasma are not within the journal’s scope.
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