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Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/23780
DC FieldValueLanguage
dc.contributor.authorConstantinou, Achilleas-
dc.contributor.authorWu, Gaowei-
dc.contributor.authorVenezia, Baldassarre-
dc.contributor.authorEllis, Peter-
dc.contributor.authorKuhn, Simon-
dc.contributor.authorGavriilidis, Asterios-
dc.date.accessioned2022-01-24T09:39:44Z-
dc.date.available2022-01-24T09:39:44Z-
dc.date.issued2019-11-
dc.identifier.citationTopics in Catalysis, 2019, vol. 62, no. 17-20, pp. 1126–1131en_US
dc.identifier.issn15729028-
dc.identifier.urihttps://hdl.handle.net/20.500.14279/23780-
dc.description.abstractA catalytic membrane reactor with a Au–Pd catalyst, impregnated at the inner side of the membrane, was studied in the catalytic oxidation of benzyl alcohol in flow. The reactor comprised of four concentric sections. The liquid substrate flowed in the annulus created by an inner tube and the membrane. The membrane consisted of 3 layers of α-alumina and a titania top layer with 5 nm average pore size. Oxygen was fed on the outer side of the membrane, and its use allowed the controlled contact of the liquid and the gas phase. Experiments revealed excellent stability of the impregnated membrane and selectivities to benzaldehyde were on average > 95%. Increasing the pressure of the gas phase and decreasing liquid flowrates and benzyl alcohol concentration resulted in an increased conversion, while selectivities to benzaldehyde remained constant and in excess of 95%.en_US
dc.formatpdfen_US
dc.language.isoenen_US
dc.relation.ispartofTopics in Catalysisen_US
dc.rights© The Author(s)en_US
dc.subjectGold/palladium catalysten_US
dc.subjectCatalytic oxidationen_US
dc.subjectContinuous flowen_US
dc.subjectMembrane reactoren_US
dc.subjectCeramic membraneen_US
dc.titleAerobic Oxidation of Benzyl Alcohol in a Continuous Catalytic Membrane Reactoren_US
dc.typeArticleen_US
dc.collaborationLondon South Bank Universityen_US
dc.collaborationUniversity College Londonen_US
dc.collaborationJohnson Matthey Technology Centreen_US
dc.collaborationKU Leuvenen_US
dc.subject.categoryChemical Sciencesen_US
dc.journalsOpen Accessen_US
dc.countryUnited Kingdomen_US
dc.countryBelgiumen_US
dc.subject.fieldNatural Sciencesen_US
dc.publicationPeer Revieweden_US
dc.identifier.doi10.1007/s11244-018-1060-9en_US
dc.identifier.scopus2-s2.0-85055693305en
dc.identifier.urlhttps://api.elsevier.com/content/abstract/scopus_id/85055693305en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.contributor.orcid#NODATA#en
dc.relation.issue17-20en_US
dc.relation.volume62en_US
cut.common.academicyear2019-2020en_US
dc.identifier.spage1126en_US
dc.identifier.epage1131en_US
item.fulltextWith Fulltext-
item.cerifentitytypePublications-
item.grantfulltextopen-
item.openairecristypehttp://purl.org/coar/resource_type/c_6501-
item.openairetypearticle-
item.languageiso639-1en-
crisitem.journal.journalissn1572-9028-
crisitem.journal.publisherSpringer Nature-
crisitem.author.deptDepartment of Chemical Engineering-
crisitem.author.facultyFaculty of Geotechnical Sciences and Environmental Management-
crisitem.author.orcid0000-0002-7763-9481-
crisitem.author.parentorgFaculty of Geotechnical Sciences and Environmental Management-
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