A preliminary study on propylene oxidation with oxygen on alumina

A preliminary study on propylene oxidation with oxygen on alumina

Propylene oxidation with oxygen on alumina is conducted using a fixed bed flow reactor system equipped with a locally fabricated gas chromatography apparatus. The effects of temperature, partial pressures of the reactants, and the carbon deposited on the surface of the catalyst on the conversion of...

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Main Author: Escorial, Ninaliza H.
Format: text
Language:English
Published: Animo Repository 1996
Subjects:
Propylene oxide
Oxygen
Oxidation
Aluminum oxide
x4 Alumina
Chemical Engineering
Online Access:https://animorepository.dlsu.edu.ph/etd_masteral/1786
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etd_masteral-86242021-02-05T11:55:55Z A preliminary study on propylene oxidation with oxygen on alumina Escorial, Ninaliza H. Propylene oxidation with oxygen on alumina is conducted using a fixed bed flow reactor system equipped with a locally fabricated gas chromatography apparatus. The effects of temperature, partial pressures of the reactants, and the carbon deposited on the surface of the catalyst on the conversion of propylene and yields of carbon monoxide and carbon dioxide are studied. Propylene conversion as well as the yields of carbon monoxide and carbon dioxide from the oxidation of propylene increased as the temperature increased. However, at lower temperature carbon deposits were formed on the surface of the catalyst. At lower temperature, two reactions occurred: oxidation and the formation of carbon deposits. Carbon deposition was optimum at the temperature range of 500 to 650 degree Centigrade. While oxidation was dominant at the temperature of 650 to 750 degree Centigrade. The conversion of propylene at the temperature of 600 degrees Centigrade increased with increasing propylene partial pressure while the yields of both carbon monoxide and carbon dioxide decreased as the partial pressure of propylene increased. At the same temperature, the partial pressure of oxygen did not have effect on the propylene conversion. Propylene conversion and the yields of carbon monoxide and carbon dioxide from propylene oxidation increased with increasing residence time. From the results of the study, it is very evident that modifications should be made on the alumina catalyst to inhibit the formation of carbon deposits on the surface of the catalyst and make it an effective oxidation catalyst. From the results of this study, it is very evident that modifications should be made on the alumina catalyst to inhibit the formation of carbon deposits on the surface of the catalyst and make it an effective oxidation catalyst. 1996-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/etd_masteral/1786 Master's Theses English Animo Repository Propylene oxide Oxygen Oxidation Aluminum oxide x4 Alumina Chemical Engineering
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Propylene oxide
Oxygen
Oxidation
Aluminum oxide
x4 Alumina
Chemical Engineering
spellingShingle Propylene oxide
Oxygen
Oxidation
Aluminum oxide
x4 Alumina
Chemical Engineering
Escorial, Ninaliza H.
A preliminary study on propylene oxidation with oxygen on alumina
description Propylene oxidation with oxygen on alumina is conducted using a fixed bed flow reactor system equipped with a locally fabricated gas chromatography apparatus. The effects of temperature, partial pressures of the reactants, and the carbon deposited on the surface of the catalyst on the conversion of propylene and yields of carbon monoxide and carbon dioxide are studied. Propylene conversion as well as the yields of carbon monoxide and carbon dioxide from the oxidation of propylene increased as the temperature increased. However, at lower temperature carbon deposits were formed on the surface of the catalyst. At lower temperature, two reactions occurred: oxidation and the formation of carbon deposits. Carbon deposition was optimum at the temperature range of 500 to 650 degree Centigrade. While oxidation was dominant at the temperature of 650 to 750 degree Centigrade. The conversion of propylene at the temperature of 600 degrees Centigrade increased with increasing propylene partial pressure while the yields of both carbon monoxide and carbon dioxide decreased as the partial pressure of propylene increased. At the same temperature, the partial pressure of oxygen did not have effect on the propylene conversion. Propylene conversion and the yields of carbon monoxide and carbon dioxide from propylene oxidation increased with increasing residence time. From the results of the study, it is very evident that modifications should be made on the alumina catalyst to inhibit the formation of carbon deposits on the surface of the catalyst and make it an effective oxidation catalyst. From the results of this study, it is very evident that modifications should be made on the alumina catalyst to inhibit the formation of carbon deposits on the surface of the catalyst and make it an effective oxidation catalyst.
format text
author Escorial, Ninaliza H.
author_facet Escorial, Ninaliza H.
author_sort Escorial, Ninaliza H.
title A preliminary study on propylene oxidation with oxygen on alumina
title_short A preliminary study on propylene oxidation with oxygen on alumina
title_full A preliminary study on propylene oxidation with oxygen on alumina
title_fullStr A preliminary study on propylene oxidation with oxygen on alumina
title_full_unstemmed A preliminary study on propylene oxidation with oxygen on alumina
title_sort preliminary study on propylene oxidation with oxygen on alumina
publisher Animo Repository
publishDate 1996
url https://animorepository.dlsu.edu.ph/etd_masteral/1786
_version_ 1712574989956284416

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