Litcius/Paper detail

Plasma-enhanced catalytic oxidation of ethylene oxide over Fe–Mn based ternary catalysts

Xinbo Zhu, Haiping Xiong, Jin Liu, Yuting Gan, Zitan Xu, Chunlin Zhou, Yaolin Wang, Ye Jiang, Xin Tu

2022Journal of the Energy Institute24 citationsDOIOpen Access PDF

Abstract

In this work, Fe–Mn based ternary catalysts (Fe–Mn-X, X = Ce, Co and Cu) were evaluated in the plasma-catalytic oxidation of ethylene oxide (EO) using a cylindrical dielectric barrier discharge (DBD) reactor. The addition of transition metal dopants to the Fe–Mn catalyst significantly improved the performance of plasma-catalyzed EO oxidation compared to the reaction using plasma only and the Fe–Mn catalyst. The highest EO conversion (91.9%) and CO2 selectivity (78.9%) were obtained over the Fe–Mn–Co catalyst at a specific energy input (SEI) of 730.2 J l−1. Moreover, the presence of water vapor improved EO conversion and CO2 selectivity in the relative humidity (RH) range of 0–60%, while further increasing the RH to 80% reduced EO conversion. The interactions between Fe, Mn and dopants increased the specific surface area and pore volume of the Fe–Mn-X catalyst, while maintaining the crystalline structure of the catalysts. The presence of the dopants enhanced the reducibility of the Fe–Mn-X catalysts and produced more surface adsorbed oxygen (Oads) on the catalyst surfaces. Moreover, the interactive effects among the Fe, Mn and dopants facilitated the plasma-catalytic oxidation reactions via enhanced surface reactions. The coupling of plasma with the Fe–Mn–Co catalyst reduced the formation of organic by-products in the plasma-catalyzed oxidation of EO.

Topics & Concepts

CatalysisDopantInorganic chemistryTernary operationOxideSelectivityChemistryTransition metalMaterials scienceMetallurgyDopingOrganic chemistryOptoelectronicsComputer scienceProgramming languageCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsPlasma Applications and Diagnostics