PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS

PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS

ABSTRACT The catalytic membrane reactors (CMR) were prepared using commercial Hollow Fiber Membranes of corundum with 4 nm or 1400 nm pores and impregnated with palladium. The tests performed were phenol hydrogenation, hydrogen peroxide generation to oxidize phenol by advanced oxidation processes an...

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Main Authors: V. Pinos-Vélez, F. Medina, A. Dafinov
Format: Article
Language:English
Published: Brazilian Society of Chemical Engineering
Series:Brazilian Journal of Chemical Engineering
Subjects:
Catalytic membrane reactors
Advanced oxidation processes
Palladium nanoparticles
Hydrogenation
Phenol
Chromium (VI) reduction
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401257&lng=en&tlng=en
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spelling doaj-e96b419d986e44288ef35842642cbdfb2020-11-24T21:09:32ZengBrazilian Society of Chemical EngineeringBrazilian Journal of Chemical Engineering1678-43833541257126610.1590/0104-6632.20180354s20170475S0104-66322018000401257PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONSV. Pinos-VélezF. MedinaA. DafinovABSTRACT The catalytic membrane reactors (CMR) were prepared using commercial Hollow Fiber Membranes of corundum with 4 nm or 1400 nm pores and impregnated with palladium. The tests performed were phenol hydrogenation, hydrogen peroxide generation to oxidize phenol by advanced oxidation processes and chromium (VI) reduction. Reactions were performed in aqueous solution, at mild temperature and under atmospheric pressure. For all tests, the hydrogen passed through the membrane to be activated with palladium. The test with phenol showed that, in the absence of oxygen, the activated hydrogen reacts with the organic matter, leading to the formation of hydrogenated products; in the presence of oxygen, active hydrogen reacts with oxygen to form hydrogen peroxide and subsequently hydroxyl radicals that attack the organic matter until its mineralization. Furthermore, the CMR is capable of reducing chromium (VI) to chromium (III). The CMRs of smaller pore size presented better performance in all reactions.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401257&lng=en&tlng=enCatalytic membrane reactorsAdvanced oxidation processesPalladium nanoparticlesHydrogenationPhenolChromium (VI) reduction
collection DOAJ
language English
format Article
sources DOAJ
author V. Pinos-Vélez
F. Medina
A. Dafinov
spellingShingle V. Pinos-Vélez
F. Medina
A. Dafinov
PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
Brazilian Journal of Chemical Engineering
Catalytic membrane reactors
Advanced oxidation processes
Palladium nanoparticles
Hydrogenation
Phenol
Chromium (VI) reduction
author_facet V. Pinos-Vélez
F. Medina
A. Dafinov
author_sort V. Pinos-Vélez
title PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
title_short PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
title_full PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
title_fullStr PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
title_full_unstemmed PERFORMANCE OF THE CATALYTIC MEMBRANE REACTORS OF DIFFERENT PORE SIZE WITH PALLADIUM AS CATALYTIC PHASE IN HYDROGENATION AND OXIDATION REACTIONS
title_sort performance of the catalytic membrane reactors of different pore size with palladium as catalytic phase in hydrogenation and oxidation reactions
publisher Brazilian Society of Chemical Engineering
series Brazilian Journal of Chemical Engineering
issn 1678-4383
description ABSTRACT The catalytic membrane reactors (CMR) were prepared using commercial Hollow Fiber Membranes of corundum with 4 nm or 1400 nm pores and impregnated with palladium. The tests performed were phenol hydrogenation, hydrogen peroxide generation to oxidize phenol by advanced oxidation processes and chromium (VI) reduction. Reactions were performed in aqueous solution, at mild temperature and under atmospheric pressure. For all tests, the hydrogen passed through the membrane to be activated with palladium. The test with phenol showed that, in the absence of oxygen, the activated hydrogen reacts with the organic matter, leading to the formation of hydrogenated products; in the presence of oxygen, active hydrogen reacts with oxygen to form hydrogen peroxide and subsequently hydroxyl radicals that attack the organic matter until its mineralization. Furthermore, the CMR is capable of reducing chromium (VI) to chromium (III). The CMRs of smaller pore size presented better performance in all reactions.
topic Catalytic membrane reactors
Advanced oxidation processes
Palladium nanoparticles
Hydrogenation
Phenol
Chromium (VI) reduction
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0104-66322018000401257&lng=en&tlng=en
work_keys_str_mv AT vpinosvelez performanceofthecatalyticmembranereactorsofdifferentporesizewithpalladiumascatalyticphaseinhydrogenationandoxidationreactions
AT fmedina performanceofthecatalyticmembranereactorsofdifferentporesizewithpalladiumascatalyticphaseinhydrogenationandoxidationreactions
AT adafinov performanceofthecatalyticmembranereactorsofdifferentporesizewithpalladiumascatalyticphaseinhydrogenationandoxidationreactions
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