Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3

Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3

Vacuum residue well know as waste product from refinery crude oil refinery and need a further process  to improve its quality. In this study, a catalytic cracking process of vacuum residue in electromagnetic field is investigated using Fe2O3/Al2O3 as catalyst. The optimization process is conducted b...

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Main Authors: Metta Wijayanti, Sri Haryati, Muhammad Djoni Bustan
Format: Article
Language:English
Published: Graduate Program Sriwijaya University 2020-03-01
Series:Sriwijaya Journal of Environment
Online Access:http://www.ojs.pps.unsri.ac.id/index.php/ppsunsri/article/view/216
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spelling doaj-2bc86c94cd0e48ec94712e9ae8b3cf432020-11-25T03:02:08ZengGraduate Program Sriwijaya UniversitySriwijaya Journal of Environment2527-49612527-38092020-03-015191485Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3Metta Wijayanti0Sri HaryatiMuhammad Djoni BustanUniversitas SriwijayaVacuum residue well know as waste product from refinery crude oil refinery and need a further process  to improve its quality. In this study, a catalytic cracking process of vacuum residue in electromagnetic field is investigated using Fe2O3/Al2O3 as catalyst. The optimization process is conducted by combination vacuum residue and catalyst in the ratios of 1:5, 1:6, 1:7, 1:8, and 1:9 under 75 min of reaction time, 400oC and 10A applied current . Liquid product analyzed using gas cromatografy mass spectrometry (GCMS). The result showed that there were a formation of, p-xylene, paraffin, and naphthalene  detected, meaning it was successfully cracked.  In the retention time 4,3min, identified p-xylene which aromatic groups about 11,38%. Not only  1,04% paraffin identified in the retention time 7,76 min. But also,  naphtalene about 3,28% was identified in the retention time 7,80 min.http://www.ojs.pps.unsri.ac.id/index.php/ppsunsri/article/view/216
collection DOAJ
language English
format Article
sources DOAJ
author Metta Wijayanti
Sri Haryati
Muhammad Djoni Bustan
spellingShingle Metta Wijayanti
Sri Haryati
Muhammad Djoni Bustan
Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
Sriwijaya Journal of Environment
author_facet Metta Wijayanti
Sri Haryati
Muhammad Djoni Bustan
author_sort Metta Wijayanti
title Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
title_short Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
title_full Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
title_fullStr Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
title_full_unstemmed Electromagnetic Catalytic Cracking Process of Vacuum Residue Using Fe2O3/Al2O3
title_sort electromagnetic catalytic cracking process of vacuum residue using fe2o3/al2o3
publisher Graduate Program Sriwijaya University
series Sriwijaya Journal of Environment
issn 2527-4961
2527-3809
publishDate 2020-03-01
description Vacuum residue well know as waste product from refinery crude oil refinery and need a further process  to improve its quality. In this study, a catalytic cracking process of vacuum residue in electromagnetic field is investigated using Fe2O3/Al2O3 as catalyst. The optimization process is conducted by combination vacuum residue and catalyst in the ratios of 1:5, 1:6, 1:7, 1:8, and 1:9 under 75 min of reaction time, 400oC and 10A applied current . Liquid product analyzed using gas cromatografy mass spectrometry (GCMS). The result showed that there were a formation of, p-xylene, paraffin, and naphthalene  detected, meaning it was successfully cracked.  In the retention time 4,3min, identified p-xylene which aromatic groups about 11,38%. Not only  1,04% paraffin identified in the retention time 7,76 min. But also,  naphtalene about 3,28% was identified in the retention time 7,80 min.
url http://www.ojs.pps.unsri.ac.id/index.php/ppsunsri/article/view/216
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AT sriharyati electromagneticcatalyticcrackingprocessofvacuumresidueusingfe2o3al2o3
AT muhammaddjonibustan electromagneticcatalyticcrackingprocessofvacuumresidueusingfe2o3al2o3
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