Zeolite-based catalysts for the removal of trace olefins from aromatic streams

Zeolite-based catalysts for the removal of trace olefins from aromatic streams

Abstract Removal of trace olefins from aromatic liquids was investigated on UZM-8 and MCM-22, which are the family of MWW zeolites. Both these zeolites were synthesized with similar Si/Al ratio and characterized by various techniques such as XRD, SEM, ICP, N2 adsorption, Ammonia TPD and solid-state...

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Main Authors: Jakkidi Krishna Reddy, Shruti Lad, Kshudiram Mantri, Jagannath Das, Ganesan Raman, Raksh Vir Jasra
Format: Article
Language:English
Published: SpringerOpen 2020-08-01
Series:Applied Petrochemical Research
Subjects:
UZM-8
MCM-22
Olefin removal process and Structure activity correlationship
Online Access:https://doi.org/10.1007/s13203-020-00251-x
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spelling doaj-54058ff5502b40b392466492351facd02021-08-08T11:14:40ZengSpringerOpenApplied Petrochemical Research2190-55252190-55332020-08-0110310711410.1007/s13203-020-00251-xZeolite-based catalysts for the removal of trace olefins from aromatic streamsJakkidi Krishna Reddy0Shruti Lad1Kshudiram Mantri2Jagannath Das3Ganesan Raman4Raksh Vir Jasra5Reliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionReliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionReliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionReliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionReliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionReliance Technolgy Group, Reliance Industries Ltd., Vadodara Manufacturing DivisionAbstract Removal of trace olefins from aromatic liquids was investigated on UZM-8 and MCM-22, which are the family of MWW zeolites. Both these zeolites were synthesized with similar Si/Al ratio and characterized by various techniques such as XRD, SEM, ICP, N2 adsorption, Ammonia TPD and solid-state MAS-NMR. Olefin conversion activity over UZM-8 was found to be significantly higher than that of MCM-22. In addition to this, deactivation of UZM-8 was slower than the MCM-22. UZM-8 with irregular stacking of MWW layers possess high external surface area and exposes more number of active sites to the reactant molecules. Mesopores generated due to the disordered layers of UZM-8 allows the fast diffusion of the substrate molecules in which pore clogging does not occur, thus making it more active and slow deactivation than that of MCM-22. Graphic abstracthttps://doi.org/10.1007/s13203-020-00251-xUZM-8MCM-22Olefin removal process and Structure activity correlationship
collection DOAJ
language English
format Article
sources DOAJ
author Jakkidi Krishna Reddy
Shruti Lad
Kshudiram Mantri
Jagannath Das
Ganesan Raman
Raksh Vir Jasra
spellingShingle Jakkidi Krishna Reddy
Shruti Lad
Kshudiram Mantri
Jagannath Das
Ganesan Raman
Raksh Vir Jasra
Zeolite-based catalysts for the removal of trace olefins from aromatic streams
Applied Petrochemical Research
UZM-8
MCM-22
Olefin removal process and Structure activity correlationship
author_facet Jakkidi Krishna Reddy
Shruti Lad
Kshudiram Mantri
Jagannath Das
Ganesan Raman
Raksh Vir Jasra
author_sort Jakkidi Krishna Reddy
title Zeolite-based catalysts for the removal of trace olefins from aromatic streams
title_short Zeolite-based catalysts for the removal of trace olefins from aromatic streams
title_full Zeolite-based catalysts for the removal of trace olefins from aromatic streams
title_fullStr Zeolite-based catalysts for the removal of trace olefins from aromatic streams
title_full_unstemmed Zeolite-based catalysts for the removal of trace olefins from aromatic streams
title_sort zeolite-based catalysts for the removal of trace olefins from aromatic streams
publisher SpringerOpen
series Applied Petrochemical Research
issn 2190-5525
2190-5533
publishDate 2020-08-01
description Abstract Removal of trace olefins from aromatic liquids was investigated on UZM-8 and MCM-22, which are the family of MWW zeolites. Both these zeolites were synthesized with similar Si/Al ratio and characterized by various techniques such as XRD, SEM, ICP, N2 adsorption, Ammonia TPD and solid-state MAS-NMR. Olefin conversion activity over UZM-8 was found to be significantly higher than that of MCM-22. In addition to this, deactivation of UZM-8 was slower than the MCM-22. UZM-8 with irregular stacking of MWW layers possess high external surface area and exposes more number of active sites to the reactant molecules. Mesopores generated due to the disordered layers of UZM-8 allows the fast diffusion of the substrate molecules in which pore clogging does not occur, thus making it more active and slow deactivation than that of MCM-22. Graphic abstract
topic UZM-8
MCM-22
Olefin removal process and Structure activity correlationship
url https://doi.org/10.1007/s13203-020-00251-x
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AT shrutilad zeolitebasedcatalystsfortheremovaloftraceolefinsfromaromaticstreams
AT kshudirammantri zeolitebasedcatalystsfortheremovaloftraceolefinsfromaromaticstreams
AT jagannathdas zeolitebasedcatalystsfortheremovaloftraceolefinsfromaromaticstreams
AT ganesanraman zeolitebasedcatalystsfortheremovaloftraceolefinsfromaromaticstreams
AT rakshvirjasra zeolitebasedcatalystsfortheremovaloftraceolefinsfromaromaticstreams
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