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Enhanced ethylene selectivity and stability of Mo/ZSM5 upon modification with phosphorus in ethane dehydrogenation
Ji, Zhonghai1,2; Lv, Houfu1,2; Pan, Xiulian1; Bao, Xinhe1
KeywordDehydrogenation Mo/zsm5 Stability Coke Shape Selective
Source PublicationJOURNAL OF CATALYSIS
2018-05-01
ISSN0021-9517
DOI10.1016/j.jcat.2017.12.023
Volume361Pages:94-104
Indexed BySCI
SubtypeArticle
WOS HeadingsScience & Technology ; Physical Sciences ; Technology
WOS SubjectChemistry, Physical ; Engineering, Chemical
WOS Research AreaChemistry ; Engineering
WOS KeywordSOLID-STATE NMR ; METHANE DEHYDRO-AROMATIZATION ; HZSM-5 ZEOLITE ; PROPANE DEHYDROGENATION ; ALKANE DEHYDROGENATION ; H-ZSM-5 ZEOLITES ; LIGHT ALKANES ; OXIDATIVE DEHYDROGENATION ; STRUCTURAL DETERMINATION ; CATALYST PERFORMANCE
AbstractNonoxidative conversion of ethane to ethylene and/or BTX (benzene, toluene, and xylene) suffers rapid deactivation due to coke deposition. We report here the effects of phosphorus modification on the stability and activity of Mo/ZSM5 for nonoxidative conversion of ethane. The results show that the ethylene and BTX yield and stability are significantly enhanced upon modification with 2.5 wt.% P center dot NH3OP TPD, pyridine FTIR, H-1 MAS NMR, (27)AI MAS NMR, P-31 MAS NMR, Xe-129 NMR, XPS, UV-visible diffuse reflectance spectra (UV-vis DRS), and nitrogen physisorption were carried out to understand the effects of P on the structure of Mo/ZSM5 and its correlation with catalytic performance. The presence of P reduces the acid strength and density, changes the channel system of ZSM5 by forming thermally stable SAPO-like interfaces with the framework AI, and improves the dispersion of molybdenum. Rapid deactivation still occurs on Mo/ZSM5 with 1 wt.% P due to the existence of denser silanol groups, more isolated Mo species, and reduced aperture size with little change in effective micropore volume. A higher P loading (2.5 wt.%) leads to less dense silanol groups and less reduced but stable molybdenum species, and simultaneously reduces channel diameter and internal volume. Consequently, the ethylene selectivity is enhanced and the formation of coke precursors is restricted, resulting in improved stability. (C) 2018 Elsevier Inc. All rights reserved.
Language英语
WOS IDWOS:000431164500011
PublisherACADEMIC PRESS INC ELSEVIER SCIENCE
Citation statistics
Document Type期刊论文
Identifierhttp://cas-ir.dicp.ac.cn/handle/321008/167227
Collection中国科学院大连化学物理研究所
Corresponding AuthorBao, Xinhe
Affiliation1.Chinese Acad Sci, Dalian Inst Chem Phys, State Key Lab Catalysis, Dalian 116023, Peoples R China
2.Univ Chinese Acad Sci, Beijing 100049, Peoples R China
Recommended Citation
GB/T 7714
Ji, Zhonghai,Lv, Houfu,Pan, Xiulian,et al. Enhanced ethylene selectivity and stability of Mo/ZSM5 upon modification with phosphorus in ethane dehydrogenation[J]. JOURNAL OF CATALYSIS,2018,361:94-104.
APA Ji, Zhonghai,Lv, Houfu,Pan, Xiulian,&Bao, Xinhe.(2018).Enhanced ethylene selectivity and stability of Mo/ZSM5 upon modification with phosphorus in ethane dehydrogenation.JOURNAL OF CATALYSIS,361,94-104.
MLA Ji, Zhonghai,et al."Enhanced ethylene selectivity and stability of Mo/ZSM5 upon modification with phosphorus in ethane dehydrogenation".JOURNAL OF CATALYSIS 361(2018):94-104.
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