Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico

Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico

The m-xylene isomerization was studied on mesoporous catalyst type MCM-48, which was impregnated with tungstophosphoric acid. The synthesis was carried out hydrothermally at 423 K, using cetyl trimethyl ammonium bromide (CTMABr) as the structural directing agent. The catalysts were prepared with dif...

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Main Authors: Edder García, Pedro Rodríguez, Alirio Lobo, Pedro Hoffman, Álvaro Uzcategui, Marlin Villarroel, Héctor Del Castillo, Sergio González Cortes, Freddy E. Imbert
Format: Article
Language:English
Published: Universidad de Los Andes 2010-09-01
Series:Avances en Química
Subjects:
MCM-48
Tungstophosphoric acid
Isomerization
m-xylene.
Online Access:http://www.saber.ula.ve/bitstream/123456789/31545/1/ac4_5_2.pdf
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spelling doaj-886ad87a750146f194196e5da8b3d1462020-11-24T23:08:15ZengUniversidad de Los AndesAvances en Química1856-53012010-09-015299105Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfóricoEdder GarcíaPedro RodríguezAlirio LoboPedro HoffmanÁlvaro UzcateguiMarlin VillarroelHéctor Del CastilloSergio González CortesFreddy E. ImbertThe m-xylene isomerization was studied on mesoporous catalyst type MCM-48, which was impregnated with tungstophosphoric acid. The synthesis was carried out hydrothermally at 423 K, using cetyl trimethyl ammonium bromide (CTMABr) as the structural directing agent. The catalysts were prepared with different percentage of tungstophosphoric acid (15, 20, 25, 30 y 40 wt. %) in methanol under stirring. The solids were characterized by XRD, nitrogen adsorcion, TPD-NH3, SEM and FTIR. The tungstophosphoric acid was found highly dispersed inside the pores of the mesoporous material; however, the acid presence inside the pores reduced markedly the surface area, pore volume and to a less extent the diameter. The catalysts were active in the m-xylene trans-formation to p- and o-xylene and trimethylbencenes. The catalyst prepared with 30 wt. % of tungsto-phosphoric acid resulted the most active, due to its higher number of active acid sites accessibles to the reacting molecules and to their higher activity per site. The catalysts were selective to isomerization reaction and to p-xylene. http://www.saber.ula.ve/bitstream/123456789/31545/1/ac4_5_2.pdfMCM-48Tungstophosphoric acidIsomerizationm-xylene.
collection DOAJ
language English
format Article
sources DOAJ
author Edder García
Pedro Rodríguez
Alirio Lobo
Pedro Hoffman
Álvaro Uzcategui
Marlin Villarroel
Héctor Del Castillo
Sergio González Cortes
Freddy E. Imbert
spellingShingle Edder García
Pedro Rodríguez
Alirio Lobo
Pedro Hoffman
Álvaro Uzcategui
Marlin Villarroel
Héctor Del Castillo
Sergio González Cortes
Freddy E. Imbert
Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
Avances en Química
MCM-48
Tungstophosphoric acid
Isomerization
m-xylene.
author_facet Edder García
Pedro Rodríguez
Alirio Lobo
Pedro Hoffman
Álvaro Uzcategui
Marlin Villarroel
Héctor Del Castillo
Sergio González Cortes
Freddy E. Imbert
author_sort Edder García
title Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
title_short Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
title_full Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
title_fullStr Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
title_full_unstemmed Isomerización de m-xileno sobre MCM-48 impregnada con ácido tungstenofosfórico
title_sort isomerización de m-xileno sobre mcm-48 impregnada con ácido tungstenofosfórico
publisher Universidad de Los Andes
series Avances en Química
issn 1856-5301
publishDate 2010-09-01
description The m-xylene isomerization was studied on mesoporous catalyst type MCM-48, which was impregnated with tungstophosphoric acid. The synthesis was carried out hydrothermally at 423 K, using cetyl trimethyl ammonium bromide (CTMABr) as the structural directing agent. The catalysts were prepared with different percentage of tungstophosphoric acid (15, 20, 25, 30 y 40 wt. %) in methanol under stirring. The solids were characterized by XRD, nitrogen adsorcion, TPD-NH3, SEM and FTIR. The tungstophosphoric acid was found highly dispersed inside the pores of the mesoporous material; however, the acid presence inside the pores reduced markedly the surface area, pore volume and to a less extent the diameter. The catalysts were active in the m-xylene trans-formation to p- and o-xylene and trimethylbencenes. The catalyst prepared with 30 wt. % of tungsto-phosphoric acid resulted the most active, due to its higher number of active acid sites accessibles to the reacting molecules and to their higher activity per site. The catalysts were selective to isomerization reaction and to p-xylene.
topic MCM-48
Tungstophosphoric acid
Isomerization
m-xylene.
url http://www.saber.ula.ve/bitstream/123456789/31545/1/ac4_5_2.pdf
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