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J Hazard Mater


Title:Degradation of gas-phase o-xylene via combined non-thermal plasma and Fe doped LaMnO(3) catalysts: Byproduct control
Author(s):Shou T; Li Y; Bernards MT; Becco C; Cao G; Shi Y; He Y;
Address:"College of Chemical and Biological Engineering, Zhejiang University, Hangzhou, 310027, China; Key Laboratory of Biomass Chemical Engineering of Ministry of Education, Zhejiang University, Hangzhou, China. Department of Chemical and Materials Engineering, University of Idaho, Moscow, 83844, USA. Department of Chemical and Biological Engineering, University of Wisconsin, Madison, Wisconsin, 53706, USA. College of Chemical and Biological Engineering, Zhejiang University, Hangzhou, 310027, China. College of Chemical and Biological Engineering, Zhejiang University, Hangzhou, 310027, China; Department of Chemical Engineering, University of Washington, Seattle, Washington, 98195, USA. Electronic address: yihezj@zju.edu.cn"
Journal Title:J Hazard Mater
Year:2020
Volume:20200107
Issue:
Page Number:121750 -
DOI: 10.1016/j.jhazmat.2019.121750
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"A series of Fe doped LaMnO(3) catalysts were prepared to control the production of byproducts such as O(3), N(2)O, and CO, during the degradation of volatile organic compounds with a non-thermal plasma. Eliminating these potentially toxic byproducts will make non-thermal plasma technologies applicable for a wider range of commercial applications. The modified LaMnO(3) catalysts are combined in NTP-catalysis reactor with optimal configuration. Experimental results show that doping Fe on LaMnO(3) catalysts can not only enhance the oxidation of o-xylene, but also lower the emission levels of byproducts. LaMn(0.9)Fe(0.1)O(3) catalyst shows the best catalytic activity among the formulations tested herein. In addition to the strong mineralization of 88.1 %, the catalyst has the highest performance for o-xylene conversion (91.3 %), O(3) inhibition efficiency (84.9 %), and N(2)O inhibition efficiency (61.2 %) due to the strong concentration of active oxygen species on the surface of the catalyst. Moreover, the high reducibility of Fe(3+) demonstrated with H(2)-TPR (hydrogen temperature-programed reduction) further enhances the removal of O(3) by oxygen species exchange between Mn(3+)/Mn(4+) and Fe(2+)/Fe(3+)"
Keywords:Byproduct control Fe doped LaMnO(3) catalyst O(3) removal O-xylene removal Plasma catalysis;
Notes:"PubMed-not-MEDLINEShou, Tianyu Li, Younan Bernards, Matthew T Becco, Cassidy Cao, Guanghan Shi, Yao He, Yi eng Research Support, Non-U.S. Gov't Netherlands 2020/01/14 J Hazard Mater. 2020 Apr 5; 387:121750. doi: 10.1016/j.jhazmat.2019.121750. Epub 2020 Jan 7"

 
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